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</div><h2>SL Paper 2</h2><div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Define the term <em>isotopes</em>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">A sample of silicon contains three isotopes.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-19_om_12.45.06.png" alt="M09/4/CHEMI/SP2/ENG/TZ2/07.a.ii"></p>
<p class="p1">Calculate the relative atomic mass of silicon using this data.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Describe the structure and bonding in silicon dioxide and carbon dioxide.</p>
<div class="marks">[4]</div>
<div class="question_part_label">a.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Draw the Lewis structure of NH<span class="s1">3</span>, state its shape and deduce and explain the H–N–H bond angle in \({\text{N}}{{\text{H}}_{\text{3}}}\).</p>
<div class="marks">[4]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The graph below shows the boiling points of the hydrides of group 5. Discuss the variation in the boiling points.</p>
<p class="p1"><img src="images/Schermafbeelding_2016-10-19_om_12.58.00.png" alt="M09/4/CHEMI/SP2/ENG/TZ2/07.b.ii"></p>
<div class="marks">[4]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain, using diagrams, why CO and \({\text{N}}{{\text{O}}_{\text{2}}}\) are polar molecules but \({\text{C}}{{\text{O}}_{\text{2}}}\) is a non-polar molecule.</p>
<div class="marks">[5]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">If white anhydrous copper(II) sulfate powder is left in the atmosphere it slowly absorbs water vapour giving the blue pentahydrated solid.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-30_om_04.56.53.png" alt="M11/4/CHEMI/SP2/ENG/TZ2/01_1"></p>
<p class="p1">It is difficult to measure the enthalpy change for this reaction directly. However, it is possible to measure the heat changes directly when both anhydrous and pentahydrated copper(II) sulfate are separately dissolved in water, and then use an energy cycle to determine the required enthalpy change value, <span class="s1">\(\Delta {H_{\text{x}}}\)</span>, indirectly.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-30_om_04.57.32.png" alt="M11/4/CHEMI/SP2/ENG/TZ2/01_2"></p>
</div>
<div class="specification">
<p class="p1">To determine \(\Delta {H_1}\) a student placed 50.0 g of water in a cup made of expanded polystyrene and used a data logger to measure the temperature. After two minutes she dissolved 3.99 g of anhydrous copper(II) sulfate in the water and continued to record the temperature while continuously stirring. She obtained the following results.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-30_om_05.00.06.png" alt="M11/4/CHEMI/SP2/ENG/TZ2/01.a"></p>
</div>
<div class="specification">
<p class="p1">To determine \(\Delta {H_2}\), 6.24 g of pentahydrated copper(II) sulfate was dissolved in 47.75 g of water. It was observed that the temperature of the solution decreased by 1.10 °C.</p>
</div>
<div class="specification">
<p class="p1">The magnitude (the value without the \( + \) or \( - \) sign) found in a data book for \(\Delta {H_{\text{x}}}\) is \({\text{78.0 kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\).</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the amount, in mol, of anhydrous copper(II) sulfate dissolved in the 50.0 g of water.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine what the temperature rise would have been, in °C, if no heat had been lost to the surroundings.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the heat change, in kJ, when 3.99 g of anhydrous copper(II) sulfate is dissolved in the water.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the value of \(\Delta {H_1}{\text{ in kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\).</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the amount, in mol, of water in 6.24 g of pentahydrated copper(II) sulfate.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the value of \(\Delta {H_2}\) in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\).</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Using the values obtained for \(\Delta {H_1}\) in (a) (iv) and \(\Delta {H_2}\) in (b) (ii), determine the value for \(\Delta {H_{\text{x}}}\) in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\).</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the percentage error obtained in this experiment. (If you did not obtain an answer for the experimental value of \(\Delta {H_{\text{x}}}\) then use the value \({\text{70.0 kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), but this is <strong>not </strong>the true value.)</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The student recorded in her qualitative data that the anhydrous copper(II) sulfate she used was pale blue rather than completely white. Suggest a reason why it might have had this pale blue colour and deduce how this would have affected the value she obtained for \(\Delta {H_{\text{x}}}\).</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.ii.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Iron tablets are often prescribed to patients. The iron in the tablets is commonly present as iron(II) sulfate, \({\text{FeS}}{{\text{O}}_{\text{4}}}\).</p>
<p class="p1">Two students carried out an experiment to determine the percentage by mass of iron in a brand of tablets marketed in Cyprus.</p>
<p class="p1"><em>Experimental Procedure</em>:</p>
<p class="p1">• <span class="Apple-converted-space"> </span>The students took five iron tablets and found that the <strong>total mass </strong>was 1.65 g.</p>
<p class="p1">• <span class="Apple-converted-space"> </span>The five tablets were ground and dissolved in \({\text{100 c}}{{\text{m}}^{\text{3}}}\) dilute sulfuric acid, \({{\text{H}}_{\text{2}}}{\text{S}}{{\text{O}}_{\text{4}}}{\text{(aq)}}\). The solution and washings were transferred to a \({\text{250 c}}{{\text{m}}^{\text{3}}}\) volumetric flask and made up to the mark with deionized (distilled) water.</p>
<p class="p1">• <span class="Apple-converted-space"> </span>\({\text{25.0 c}}{{\text{m}}^{\text{3}}}\) of this \({\text{F}}{{\text{e}}^{2 + }}{\text{(aq)}}\) solution was transferred using a pipette into a conical flask. Some dilute sulfuric acid was added.</p>
<p class="p1">• <span class="Apple-converted-space"> </span>A titration was then carried out using a \(5.00 \times {10^{ - 3}}{\text{ mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) standard solution of potassium permanganate, \({\text{KMn}}{{\text{O}}_{\text{4}}}{\text{(aq)}}\). The end-point of the titration was indicated by a slight pink colour.</p>
<p class="p1">The following results were recorded.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-18_om_08.33.09.png" alt="M13/4/CHEMI/SP2/ENG/TZ2/01"></p>
</div>
<div class="specification">
<p class="p1">This experiment involves the following redox reaction.</p>
<p class="p1">\[{\text{5F}}{{\text{e}}^{2 + }}{\text{(aq)}} + {\text{MnO}}_4^ - {\text{(aq)}} + {\text{8}}{{\text{H}}^ + }{\text{(aq)}} \to {\text{5F}}{{\text{e}}^{3 + }}{\text{(aq)}} + {\text{M}}{{\text{n}}^{2 + }}{\text{(aq)}} + {\text{4}}{{\text{H}}_2}{\text{O(l)}}\]</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">When the \({\text{F}}{{\text{e}}^{2 + }}{\text{(aq)}}\) solution was made up in the \({\text{250 c}}{{\text{m}}^{\text{3}}}\) volumetric flask, deionized (distilled) water was added until the bottom of its meniscus corresponded to the graduation mark on the flask. It was noticed that one of the two students measured the volume of the solution from the top of the meniscus instead of from the bottom. State the name of this type of error.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">State what is meant by the term <em>precision</em>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">When the students recorded the burette readings, following the titration with KMnO<sub><span class="s1">4 </span></sub>(aq),the top of the meniscus was used and not the bottom. Suggest why the students read the top of the meniscus and not the bottom.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Define the term <em>reduction </em>in terms of electrons.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Deduce the oxidation number of manganese in the \({\text{MnO}}_{\text{4}}^ - {\text{(aq)}}\) ion.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the amount, in mol, of \({\text{MnO}}_{\text{4}}^ - {\text{(aq)}}\), used in each accurate titre.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the amount, in mol, of \({\text{F}}{{\text{e}}^{2 + }}{\text{(aq)}}\) ions in \({\text{250 c}}{{\text{m}}^{\text{3}}}\) of the solution.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the total mass of iron, in g, in the \({\text{250 c}}{{\text{m}}^{\text{3}}}\) solution.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the percentage by mass of iron in the tablets.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">One titration was abandoned because a brown precipitate, manganese(IV) oxide, formed. State the chemical formula of this compound.</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.i.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Ethanol is used as a component in fuel for some vehicles. One fuel mixture contains 10% by mass of ethanol in unleaded petrol (gasoline). This mixture is often referred to as Gasohol E10.</p>
</div>
<div class="specification">
<p class="p1">Assume that the other 90% by mass of Gasohol E10 is octane. 1.00 kg of this fuel mixture was burned.</p>
<p class="p1">\[\begin{array}{*{20}{l}} {{\text{C}}{{\text{H}}_3}{\text{C}}{{\text{H}}_2}{\text{OH(l)}} + {\text{3}}{{\text{O}}_2}{\text{(g)}} \to {\text{2C}}{{\text{O}}_2}{\text{(g)}} + {\text{3}}{{\text{H}}_2}{\text{O(l)}}}&{\Delta {H^\Theta } = - 1367{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}} \\ {{{\text{C}}_8}{{\text{H}}_{18}}{\text{(l)}} + {\text{12}}\frac{1}{2}{{\text{O}}_2}{\text{(g)}} \to {\text{8C}}{{\text{O}}_2}{\text{(g)}} + {\text{9}}{{\text{H}}_2}{\text{O(l)}}}&{\Delta {H^\Theta } = - 5470{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}} \end{array}\]</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the mass, in g, of ethanol and octane in 1.00 kg of the fuel mixture.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the amount, in mol, of ethanol and octane in 1.00 kg of the fuel mixture.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the total amount of energy, in kJ, released when 1.00 kg of the fuel mixture is completely burned.</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">If the fuel blend was vaporized before combustion, predict whether the amount of energy released would be greater, less or the same. Explain your answer.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Aspirin, one of the most widely used drugs in the world, can be prepared according to the equation given below.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-19_om_08.15.13.png" alt="M09/4/CHEMI/SP2/ENG/TZ2/01"></p>
</div>
<div class="specification">
<p class="p1">A student reacted some salicylic acid with excess ethanoic anhydride. Impure solid aspirin was obtained by filtering the reaction mixture. Pure aspirin was obtained by recrystallization. The following table shows the data recorded by the student.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-19_om_08.18.46.png" alt="M09/4/CHEMI/SP2/ENG/TZ2/01.b"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">State the names of the <strong>three </strong>organic functional groups in aspirin.</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the amount, in mol, of salicylic acid, \({{\text{C}}_{\text{6}}}{{\text{H}}_{\text{4}}}{\text{(OH)COOH}}\), used.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the theoretical yield, in g, of aspirin, \({{\text{C}}_{\text{6}}}{{\text{H}}_{\text{4}}}{\text{(OCOC}}{{\text{H}}_{\text{3}}}{\text{)COOH}}\).</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the percentage yield of pure aspirin.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">State the number of significant figures associated with the mass of pure aspirin obtained, and calculate the percentage uncertainty associated with this mass.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Another student repeated the experiment and obtained an experimental yield of 150%. The teacher checked the calculations and found no errors. Comment on the result.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.v.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The following is a three-dimensional computer-generated representation of aspirin.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-19_om_09.08.18.png" alt="M09/4/CHEMI/SP2/ENG/TZ2/01.b.vi_1"></p>
<p class="p1">A third student measured selected bond lengths in aspirin, using this computer program and reported the following data.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-19_om_09.09.34.png" alt="M09/4/CHEMI/SP2/ENG/TZ2/01.b.vi_2"></p>
<p class="p1">The following hypothesis was suggested by the student: “<em>Since all the measured </em><em>carbon-carbon bond lengths are equal, all the carbon-oxygen bond lengths must </em><em>also be equal in aspirin. Therefore, the C8–O4 bond length must be 1.4 </em>\( \times \)<em> 10</em><sup><span class="s1"><em>–10 </em></span></sup><em>m</em>”. Comment on whether or not this is a valid hypothesis.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.vi.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The other product of the reaction is ethanoic acid, \({\text{C}}{{\text{H}}_{\text{3}}}{\text{COOH}}\). Define an acid according to the Brønsted-Lowry theory and state the conjugate base of \({\text{C}}{{\text{H}}_{\text{3}}}{\text{COOH}}\).</p>
<p class="p1">Brønsted-Lowry definition of an acid:</p>
<p class="p1">Conjugate base of \({\text{C}}{{\text{H}}_{\text{3}}}{\text{COOH}}\):</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.vii.</div>
</div>
<br><hr><br><div class="specification">
<p>A class studied the equilibrium established when ethanoic acid and ethanol react together in the presence of a strong acid, using propanone as an inert solvent. The equation is given below.</p>
<p>\[{\text{C}}{{\text{H}}_{\text{3}}}{\text{COOH}} + {{\text{C}}_{\text{2}}}{{\text{H}}_{\text{5}}}{\text{OH}} \rightleftharpoons {\text{C}}{{\text{H}}_{\text{3}}}{\text{COO}}{{\text{C}}_{\text{2}}}{{\text{H}}_{\text{5}}} + {{\text{H}}_{\text{2}}}{\text{O}}\]</p>
<p>One group made the following <strong>initial mixture</strong>:</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2016-08-17_om_07.42.39.png" alt="M14/4/CHEMI/SP2/ENG/TZ2/01"></p>
</div>
<div class="specification">
<p>After one week, a \(5.00 \pm 0.05{\text{ c}}{{\text{m}}^{\text{3}}}\) sample of the final equilibrium mixture was pipetted out and titrated with \({\text{0.200 mol}}\,{\text{d}}{{\text{m}}^{ - 2}}\) aqueous sodium hydroxide to determine the amount of ethanoic acid remaining. The following titration results were obtained:</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2016-08-17_om_07.59.45.png" alt="M14/4/CHEMI/SP2/ENG/TZ2/01.d"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The density of ethanoic acid is \({\text{1.05 g}}\,{\text{c}}{{\text{m}}^{ - 3}}\). Determine the amount, in mol, of ethanoic acid present in the initial mixture.</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The hydrochloric acid does not appear in the balanced equation for the reaction. State its function.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the liquid whose volume has the greatest percentage uncertainty.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>(i) Calculate the absolute uncertainty of the titre for Titration 1 (\({\text{27.60 c}}{{\text{m}}^{\text{3}}}\)).</p>
<p> </p>
<p>(ii) Suggest the average volume of alkali, required to neutralize the \({\text{5.00 c}}{{\text{m}}^{\text{3}}}\) sample, that the student should use.</p>
<p> </p>
<p> </p>
<p>(iii) \({\text{23.00 c}}{{\text{m}}^{\text{3}}}\) of this \({\text{0.200 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) aqueous sodium hydroxide reacted with the ethanoic acid in the \({\text{5.00 c}}{{\text{m}}^{\text{3}}}\) sample. Determine the amount, in mol, of ethanoic acid present in the \({\text{50.0 c}}{{\text{m}}^{\text{3}}}\) of final equilibrium mixture.</p>
<div class="marks">[4]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Referring back to your answer for part (a), calculate the percentage of ethanoic acid converted to ethyl ethanoate.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the equilibrium constant expression for the reaction.</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Outline how you could establish that the system had reached equilibrium at the end of one week.</p>
<div class="marks">[1]</div>
<div class="question_part_label">g.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Outline why changing the temperature has only a very small effect on the value of the equilibrium constant for this equilibrium.</p>
<div class="marks">[1]</div>
<div class="question_part_label">h.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Outline how adding some ethyl ethanoate to the initial mixture would affect the amount of ethanoic acid converted to product.</p>
<div class="marks">[2]</div>
<div class="question_part_label">i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Propanone is used as the solvent because one compound involved in the equilibrium is insoluble in water. Identify this compound and explain why it is insoluble in water.</p>
<div class="marks">[2]</div>
<div class="question_part_label">j.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest <strong>one</strong> other reason why using water as a solvent would make the experiment less successful.</p>
<div class="marks">[1]</div>
<div class="question_part_label">k.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Reaction kinetics can be investigated using the iodine clock reaction. The equations for two reactions that occur are given below.</p>
<p class="p1"><span class="Apple-converted-space"> </span>Reaction A: \({{\text{H}}_2}{{\text{O}}_2}{\text{(aq)}} + {\text{2}}{{\text{I}}^ - }{\text{(aq)}} + {\text{2}}{{\text{H}}^ + }{\text{(aq)}} \to {{\text{I}}_2}{\text{(aq)}} + {\text{2}}{{\text{H}}_2}{\text{O(l)}}\)</p>
<p class="p1"><span class="Apple-converted-space"> </span>Reaction B: \({{\text{I}}_2}{\text{(aq)}} + {\text{2}}{{\text{S}}_2}{\text{O}}_3^{2 - }{\text{(aq)}} \to {\text{2}}{{\text{I}}^ - }{\text{(aq)}} + {{\text{S}}_4}{\text{O}}_6^{2 - }{\text{(aq)}}\)</p>
<p class="p1">Reaction B is much faster than reaction A, so the iodine, \({{\text{I}}_{\text{2}}}\), formed in reaction A immediately reacts with thiosulfate ions, \({{\text{S}}_{\text{2}}}{\text{O}}_3^{2 - }\), in reaction B, before it can react with starch to form the familiar blue-black, starch-iodine complex.</p>
<p class="p1">In one experiment the reaction mixture contained:</p>
<p class="p1">\(5.0 \pm 0.1{\text{ c}}{{\text{m}}^{\text{3}}}\) of \({\text{2.00 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) hydrogen peroxide \({\text{(}}{{\text{H}}_{\text{2}}}{{\text{O}}_{\text{2}}}{\text{)}}\)</p>
<p class="p1">\(5.0 \pm 0.1{\text{ c}}{{\text{m}}^{\text{3}}}\) of 1% aqueous starch</p>
<p class="p1">\(20.0 \pm 0.1{\text{ c}}{{\text{m}}^{\text{3}}}\) of \({\text{1.00 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) sulfuric acid (\({{\text{H}}_{\text{2}}}{\text{S}}{{\text{O}}_{\text{4}}}\))</p>
<p class="p1">\(20.0 \pm 0.1{\text{ c}}{{\text{m}}^{\text{3}}}\) of \({\text{0.0100 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) sodium thiosulfate (\({\text{N}}{{\text{a}}_{\text{2}}}{{\text{S}}_{\text{2}}}{{\text{O}}_{\text{3}}}\))</p>
<p class="p1">\(50.0 \pm 0.1{\text{ c}}{{\text{m}}^{\text{3}}}\) of water with 0.0200 ± 0.0001 g of potassium iodide (KI) dissolved in it.</p>
<p class="p1">After 45 seconds this mixture suddenly changed from colourless to blue-black.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the amount, in mol, of KI in the reaction mixture.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the amount, in mol, of \({{\text{H}}_{\text{2}}}{{\text{O}}_{\text{2}}}\) in the reaction mixture.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The concentration of iodide ions, \({{\text{I}}^ - }\), is assumed to be constant. Outline why this is a valid assumption.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">For this mixture the concentration of hydrogen peroxide, \({{\text{H}}_{\text{2}}}{{\text{O}}_{\text{2}}}\), can also be assumed to be constant. Explain why this is a valid assumption.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain why the solution suddenly changes colour.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Apart from the precision uncertainties given, state <strong>one </strong>source of error that could affect this investigation and identify whether this is a random error or a systematic error.</p>
<div class="marks">[2]</div>
<div class="question_part_label">f.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the total uncertainty, in \({\text{c}}{{\text{m}}^{\text{3}}}\), of the volume of the reaction mixture.</p>
<div class="marks">[1]</div>
<div class="question_part_label">g.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The colour change occurs when \(1.00 \times {10^{ - 4}}{\text{ mol}}\) of iodine has been formed. Use the total volume of the solution and the time taken, to calculate the rate of the reaction, including appropriate units.</p>
<div class="marks">[4]</div>
<div class="question_part_label">h.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">In a second experiment, the concentration of the hydrogen peroxide was decreased to \({\text{1.00 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) while all other concentrations and volumes remained unchanged. The colour change now occurred after 100 seconds. Explain why the reaction in this experiment is slower than in the original experiment.</p>
<div class="marks">[2]</div>
<div class="question_part_label">i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">In a third experiment, 0.100 g of a black powder was also added while all other concentrations and volumes remained unchanged. The time taken for the solution to change colour was now 20 seconds. Outline why you think the colour change occurred more rapidly and how you could confirm your hypothesis.</p>
<div class="marks">[2]</div>
<div class="question_part_label">j.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain why increasing the temperature also decreases the time required for the colour to change.</p>
<div class="marks">[2]</div>
<div class="question_part_label">k.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Consider the following reaction taking place at 375 °C in a \({\text{1.00 d}}{{\text{m}}^{\text{3}}}\) closed container.</p>
<p class="p1">\[\begin{array}{*{20}{l}} {{\text{C}}{{\text{l}}_{\text{2}}}{\text{(g)}} + {\text{S}}{{\text{O}}_{\text{2}}}{\text{(g)}} \rightleftharpoons {\text{S}}{{\text{O}}_{\text{2}}}{\text{C}}{{\text{l}}_{\text{2}}}{\text{(g)}}}&{\Delta {H^\Theta } = - 84.5{\text{ kJ}}} \end{array}\]</p>
</div>
<div class="specification">
<p class="p1">A solution of hydrogen peroxide, \({{\text{H}}_{\text{2}}}{{\text{O}}_{\text{2}}}\), is added to a solution of sodium iodide, NaI, acidified with hydrochloric acid, HCl. The yellow colour of the iodine, \({{\text{I}}_{\text{2}}}\), can be used to determine the rate of reaction.</p>
<p class="p1">\[{{\text{H}}_2}{{\text{O}}_2}{\text{(aq)}} + {\text{2NaI(aq)}} + {\text{2HCl(aq)}} \to {\text{2NaCl(aq)}} + {{\text{I}}_2}{\text{(aq)}} + {\text{2}}{{\text{H}}_2}{\text{O(l)}}\]</p>
<p class="p1">The experiment is repeated with some changes to the reaction conditions. For each of the changes that follow, predict, stating a reason, its effect on the rate of reaction.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Deduce the equilibrium constant expression, \({K_{\text{c}}}\), for the reaction.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">If the temperature of the reaction is changed to 300 °C, predict, stating a reason in each case, whether the equilibrium concentration of \({\text{S}}{{\text{O}}_{\text{2}}}{\text{C}}{{\text{l}}_{\text{2}}}\) and the value of \({K_{\text{c}}}\) will increase or decrease.</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">If the volume of the container is changed to \({\text{1.50 d}}{{\text{m}}^{\text{3}}}\), predict, stating a reason in each case, how this will affect the equilibrium concentration of \({\text{S}}{{\text{O}}_{\text{2}}}{\text{C}}{{\text{l}}_{\text{2}}}\) and the value of \({K_{\text{c}}}\).</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Suggest, stating a reason, how the addition of a catalyst at constant pressure and temperature will affect the equilibrium concentration of \({\text{S}}{{\text{O}}_{\text{2}}}{\text{C}}{{\text{l}}_{\text{2}}}\).</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Graphing is an important method in the study of the rates of chemical reaction. Sketch a graph to show how the reactant concentration changes with time in a typical chemical reaction taking place in solution. Show how the rate of the reaction at a particular time can be determined.</p>
<div class="marks">[4]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The concentration of \({{\text{H}}_{\text{2}}}{{\text{O}}_{\text{2}}}\) is increased at constant temperature.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The solution of NaI is prepared from a fine powder instead of large crystals.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain why the rate of a reaction increases when the temperature of the system increases.</p>
<div class="marks">[3]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>A student used a pH meter to measure the pH of different samples of water at 298 K.</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2016-08-23_om_05.52.17.png" alt="N14/4/CHEMI/SP2/ENG/TZ0/01"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Use the data in the table to identify the most acidic water sample.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the percentage uncertainty in the measured pH of the rain water sample.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the ratio of \({\text{[}}{{\text{H}}^ + }{\text{]}}\) in bottled water to that in rain water.</p>
<p>\[\frac{{[{H^ + }]{\text{ }}in{\text{ }}bottled{\text{ }}water}}{{[{H^ + }]{\text{ }}in{\text{ }}rain{\text{ }}water}}\]</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The acidity of non-polluted rain water is caused by dissolved carbon dioxide. State an equation for the reaction of carbon dioxide with water.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>Ethanedioic acid is a diprotic acid. A student determined the value of x in the formula of hydrated ethanedioic acid, \({\text{HOOC}}\)–\({\text{COOH}} \bullet {\text{x}}{{\text{H}}_{\text{2}}}{\text{O}}\), by titrating a known mass of the acid with a \({\text{0.100 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) solution of \({\text{NaOH(aq)}}\).</p>
<p>0.795 g of ethanedioic acid was dissolved in distilled water and made up to a total volume of \({\text{250 c}}{{\text{m}}^{\text{3}}}\) in a volumetric flask.</p>
<p>\({\text{25 c}}{{\text{m}}^{\text{3}}}\) of this ethanedioic acid solution was pipetted into a flask and titrated against aqueous sodium hydroxide using phenolphthalein as an indicator.</p>
<p>The titration was then repeated twice to obtain the results below.</p>
<p><img src="images/Schermafbeelding_2016-08-09_om_11.19.20.png" alt="M15/4/CHEMI/SP2/ENG/TZ1/01"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the uncertainty of the volume of NaOH added in \({\text{c}}{{\text{m}}^{\text{3}}}\).</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the average volume of NaOH added, in \({\text{c}}{{\text{m}}^{\text{3}}}\), in titrations 2 and 3, and then calculate the amount, in mol, of NaOH added.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>(i) The equation for the reaction taking place in the titration is:</p>
<p style="text-align: center;">\({\text{HOOC}}\)−\({\text{COOH(aq)}} + {\text{2NaOH(aq)}} \to {\text{NaOOC}}\)−\({\text{COONa(aq)}} + {\text{2}}{{\text{H}}_{\text{2}}}{\text{O(l)}}\)</p>
<p>Determine the amount, in mol, of ethanedioic acid that reacts with the average volume of \({\text{NaOH(aq)}}\).</p>
<p> </p>
<p> </p>
<p>(ii) Determine the amount, in mol, of ethanedioic acid present in \({\text{250 c}}{{\text{m}}^{\text{3}}}\) of the original solution.</p>
<p> </p>
<p> </p>
<p>(ii) Determine the molar mass of hydrated ethanedioic acid.</p>
<p> </p>
<p> </p>
<p>(iv) Determine the value of x in the formula \({\text{HOOC}}\)−\({\text{COOH}} \bullet {\text{x}}{{\text{H}}_{\text{2}}}{\text{O}}\).</p>
<div class="marks">[5]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the strongest intermolecular force in solid ethanedioic acid.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the Lewis (electron dot) structure of ethanedioic acid, HOOC−COOH.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p>The graph below shows pressure and volume data collected for a sample of carbon dioxide gas at 330 K.</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2016-08-23_om_06.19.42.png" alt="N14/4/CHEMI/SP2/ENG/TZ0/02"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw a best-fit curve for the data on the graph.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the relationship between the pressure and volume of the sample of carbon dioxide gas.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Use the data point labelled <strong>X</strong> to determine the amount, in mol, of carbon dioxide gas in the sample.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p>A student carried out an experiment to determine the concentration of a hydrochloric acid solution and the enthalpy change of the reaction between aqueous sodium hydroxide and this acid by thermometric titration.</p>
<p>She added \({\text{5.0 c}}{{\text{m}}^{\text{3}}}\) portions of hydrochloric acid to \({\text{25.0 c}}{{\text{m}}^{\text{3}}}\) of \({\text{1.00 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) sodium hydroxide solution in a glass beaker until the total volume of acid added was \({\text{50.0 c}}{{\text{m}}^{\text{3}}}\), measuring the temperature of the mixture each time. Her results are plotted in the graph below.</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2016-08-09_om_18.48.41_1.png" alt="M15/4/CHEMI/SP2/ENG/TZ2/01"></p>
<p>The initial temperature of both solutions was the same.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>By drawing appropriate lines, determine the volume of hydrochloric acid required to completely neutralize the \({\text{25.0 c}}{{\text{m}}^{\text{3}}}\) of sodium hydroxide solution.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the concentration of the hydrochloric acid, including units.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the change in temperature, \(\Delta T\).</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the enthalpy change, in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), for the reaction of hydrochloric acid and sodium hydroxide solution.</p>
<div class="marks">[3]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The accepted theoretical value from the literature of this enthalpy change is \( - 58{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\). Calculate the percentage error correct to <strong>two </strong>significant figures.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest the major source of error in the experimental procedure <strong>and </strong>an improvement that could be made to reduce it.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iv.</div>
</div>
<br><hr><br><div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The standard enthalpy change of three combustion reactions are given below.</p>
<p>\[\begin{array}{*{20}{l}} {{{\text{H}}_2}{\text{(g)}} + \frac{1}{2}{{\text{O}}_2}{\text{(g)}} \to {{\text{H}}_2}{\text{O(l)}}}&{\Delta H = - 286{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}} \\ {{{\text{C}}_3}{{\text{H}}_8}{\text{(g)}} + {\text{5}}{{\text{O}}_2}{\text{(g)}} \to {\text{3C}}{{\text{O}}_2}{\text{(g)}} + {\text{4}}{{\text{H}}_2}{\text{O(l)}}}&{\Delta H = - 2219{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}} \\ {{\text{C(s)}} + {{\text{O}}_2}{\text{(g)}} \to {\text{C}}{{\text{O}}_2}{\text{(g)}}}&{\Delta H = - 394{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}} \end{array}\]</p>
<p>Determine the change in enthalpy, \(\Delta H\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), for the formation of propane in the following reaction.</p>
<p>\({\text{3C(s)}} + {\text{4}}{{\text{H}}_2}{\text{(g)}} \to {{\text{C}}_3}{{\text{H}}_8}{\text{(g)}}\)</p>
<div class="marks">[4]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">A catalyst provides an alternative pathway for a reaction, lowering the activation energy, \({E_{\text{a}}}\). Define the term <em>activation energy</em>, \({E_{\text{a}}}\).</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Sketch <strong>two </strong>Maxwell–Boltzmann energy distribution curves for a fixed amount of gas at two different temperatures, \({T_{\text{1}}}\) and \({T_2}{\text{ }}({T_2} > {T_1})\) and label <strong>both </strong>axes.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-19_om_05.17.47.png" alt="M13/4/CHEMI/SP2/ENG/TZ2/02.c"></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p>Urea, (H<sub>2</sub>N)<sub>2</sub>CO, is excreted by mammals and can be used as a fertilizer.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the percentage by mass of nitrogen in urea to two decimal places using section 6 of the data booklet.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest how the percentage of nitrogen affects the cost of transport of fertilizers giving a reason.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The structural formula of urea is shown.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_13.51.02.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.b_01"></p>
<p>Predict the electron domain and molecular geometries at the nitrogen and carbon atoms, applying the VSEPR theory.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_13.52.37.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.b_02"></p>
<div class="marks">[3]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Urea can be made by reacting potassium cyanate, KNCO, with ammonium chloride, NH<sub>4</sub>Cl.</p>
<p>                   KNCO(aq) + NH<sub>4</sub>Cl(aq) → (H<sub>2</sub>N)<sub>2</sub>CO(aq) + KCl(aq)</p>
<p>Determine the maximum mass of urea that could be formed from 50.0 cm<sup>3</sup> of 0.100 mol dm<sup>−3</sup> potassium cyanate solution.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Urea can also be made by the direct combination of ammonia and carbon dioxide gases.</p>
<p>                  2NH<sub>3</sub>(g) + CO<sub>2</sub>(g) \( \rightleftharpoons \) (H<sub>2</sub>N)<sub>2</sub>CO(g) + H<sub>2</sub>O(g)   Δ<em>H </em>< 0</p>
<p>Predict, with a reason, the effect on the equilibrium constant, <em>K</em><sub>c</sub>, when the temperature is increased.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest one reason why urea is a solid and ammonia a gas at room temperature.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Sketch <strong>two </strong>different hydrogen bonding interactions between ammonia and water.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The combustion of urea produces water, carbon dioxide and nitrogen.</p>
<p>Formulate a balanced equation for the reaction.</p>
<div class="marks">[2]</div>
<div class="question_part_label">f.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The mass spectrum of urea is shown below.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_14.15.23.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.g_01"></p>
<p>Identify the species responsible for the peaks at <em>m</em>/<em>z </em>= 60 and 44.</p>
<p><img src="data:image/png;base64,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"></p>
<p>Â </p>
<div class="marks">[2]</div>
<div class="question_part_label">g.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The IR spectrum of urea is shown below.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_14.21.30.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.h_01"></p>
<p>Identify the bonds causing the absorptions at 3450 cm<sup>−1</sup> and 1700 cm<sup>−1</sup> using section 26 of the data booklet.</p>
<p><img src="data:image/png;base64,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"></p>
<p>Â </p>
<div class="marks">[2]</div>
<div class="question_part_label">h.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Predict the number of signals in the <sup>1</sup>H NMR spectrum of urea.</p>
<div class="marks">[1]</div>
<div class="question_part_label">i.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">A student decided to determine the molecular mass of a solid monoprotic acid, HA, by titrating a solution of a known mass of the acid.</p>
<p class="p2">The following recordings were made.</p>
<p class="p2" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-14_om_15.26.17.png" alt="M13/4/CHEMI/SP2/ENG/TZ1/01"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the mass of the acid and determine its absolute and percentage uncertainty.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">This known mass of acid, HA, was then dissolved in distilled water to form a \({\text{100.0 c}}{{\text{m}}^{\text{3}}}\) solution in a volumetric flask. A \({\text{25.0 c}}{{\text{m}}^{\text{3}}}\) sample of this solution reacted with \({\text{12.1 c}}{{\text{m}}^{\text{3}}}\) of a \({\text{0.100 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}\) NaOH solution. Calculate the molar mass of the acid.</p>
<div class="marks">[3]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The percentage composition of HA is 70.56% carbon, 23.50% oxygen and 5.94% hydrogen. Determine its empirical formula.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">A solution of HA is a weak acid. Distinguish between a <em>weak acid </em>and a <em>strong acid</em>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Describe an experiment, other than measuring the pH, to distinguish HA from a strong acid of the same concentration and describe what would be observed.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Airbags are an important safety feature in vehicles. Sodium azide, potassium nitrate and silicon dioxide have been used in one design of airbag.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-11-03_om_14.35.39.png" alt="N11/4/CHEMI/SP2/ENG/TZ0/01"></p>
<p class="p1">Sodium azide, a toxic compound, undergoes the following decomposition reaction under certain conditions.</p>
<p class="p1">\[{\text{2Na}}{{\text{N}}_{\text{3}}}{\text{(s)}} \to {\text{2Na(s)}} + {\text{3}}{{\text{N}}_{\text{2}}}{\text{(g)}}\]</p>
<p class="p1">Two students looked at data in a simulated computer-based experiment to determine the volume of nitrogen generated in an airbag.</p>
</div>
<div class="specification">
<p class="p1">Using the simulation programme, the students entered the following data into the computer.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-11-03_om_15.10.05.png" alt="N11/4/CHEMI/SP2/ENG/TZ0/01.b"></p>
</div>
<div class="specification">
<p class="p1">The chemistry of the airbag was found to involve three reactions. The first reaction involves the decomposition of sodium azide to form sodium and nitrogen. In the second reaction, potassium nitrate reacts with sodium.</p>
<p class="p1">\[{\text{2KN}}{{\text{O}}_3}{\text{(s)}} + {\text{10Na(s)}} \to {{\text{K}}_2}{\text{O(s)}} + {\text{5N}}{{\text{a}}_2}{\text{O(s)}} + {{\text{N}}_2}{\text{(g)}}\]</p>
</div>
<div class="specification">
<p class="p1">An airbag inflates very quickly.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Sodium azide involves ionic bonding, and metallic bonding is present in sodium. Describe ionic and metallic bonding.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">State the number of significant figures for the temperature, mass and pressure data.</p>
<p class="p1"><em>T</em>:</p>
<p class="p1"><em>m</em>:</p>
<p class="p1"><em>p</em>:</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the amount, in mol, of sodium azide present.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the volume of nitrogen gas, in \({\text{d}}{{\text{m}}^{\text{3}}}\), produced under these conditions based on this reaction.</p>
<div class="marks">[4]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Suggest why it is necessary for sodium to be removed by this reaction.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The metal oxides from the second reaction then react with silicon dioxide to form a silicate in the third reaction.</p>
<p class="p1">\[{{\text{K}}_2}{\text{O(s)}} + {\text{N}}{{\text{a}}_2}{\text{O(s)}} + {\text{Si}}{{\text{O}}_2}{\text{(s)}} \to {\text{N}}{{\text{a}}_2}{{\text{K}}_2}{\text{Si}}{{\text{O}}_4}{\text{(s)}}\]</p>
<p class="p1">Draw the structure of silicon dioxide and state the type of bonding present.</p>
<p class="p1">Structure:</p>
<p class="p1">Bonding:</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">It takes just 0.0400 seconds to produce nitrogen gas in the simulation. Calculate the average rate of formation of nitrogen in (b) (iii) and state its units.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The students also discovered that a small increase in temperature (<em>e.g. </em>10 °C) causes a large increase (<em>e.g. </em>doubling) in the rate of this reaction. State <strong>one </strong>reason for this.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>The rate of the acid-catalysed iodination of propanone can be followed by measuring how the concentration of iodine changes with time.</p>
<p style="text-align: center;">I<sub>2</sub>(aq) + CH<sub>3</sub>COCH<sub>3</sub>(aq) → CH<sub>3</sub>COCH<sub>2</sub>I(aq) + H<sup>+</sup>(aq) + I<sup>−</sup>(aq)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest how the change of iodine concentration could be followed.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>A student produced these results with [H<sup>+</sup>] = 0.15 mol\(\,\)dm<sup>−3</sup>. Propanone and acid were in excess and iodine was the limiting reagent.</p>
<p>Determine the relative rate of reaction when [H<sup>+</sup>] = 0.15 mol\(\,\)dm<sup>−3</sup>.</p>
<p><img src="images/Schermafbeelding_2017-09-22_om_15.59.41.png" alt="M17/4/CHEMI/SP2/ENG/TZ1/01.a.ii"></p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The student then carried out the experiment at other acid concentrations with all other conditions remaining unchanged.</p>
<p style="text-align: center;"><img 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"></p>
<p>State and explain the relationship between the rate of reaction and the concentration of acid.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Two groups of students (Group A and Group B) carried out a project* on the chemistry of some group 7 elements (the halogens) and their compounds.</p>
<p class="p1"> </p>
<p class="p1"><span class="s1"><em>* </em></span><em>Adapted from J Derek Woollins, (2009), Inorganic Experiments and Open University, (2008), Exploring the Molecular World.</em></p>
</div>
<div class="specification">
<p class="p1">In the first part of the project, the two groups had a sample of iodine monochloride (a corrosive brown liquid) prepared for them by their teacher using the following reaction.</p>
<p class="p1">\[{{\text{I}}_{\text{2}}}{\text{(s)}} + {\text{C}}{{\text{l}}_{\text{2}}}{\text{(g)}} \to {\text{2ICl(l)}}\]</p>
<p class="p1">The following data were recorded.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-23_om_06.15.25.png" alt="N12/4/CHEMI/SP2/ENG/TZ0/01.a"></p>
</div>
<div class="specification">
<p class="p1">The students reacted ICl(l) with CsBr(s) to form a yellow solid, \({\text{CsIC}}{{\text{l}}_{\text{2}}}{\text{(s)}}\), as one of the products. \({\text{CsIC}}{{\text{l}}_{\text{2}}}{\text{(s)}}\) has been found to produce very pure CsCl(s) which is used in cancer treatment.</p>
<p class="p1">To confirm the composition of the yellow solid, Group A determined the amount of iodine in 0.2015 g of \({\text{CsIC}}{{\text{l}}_{\text{2}}}{\text{(s)}}\) by titrating it with \({\text{0.0500 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}{\text{ N}}{{\text{a}}_{\text{2}}}{{\text{S}}_{\text{2}}}{{\text{O}}_{\text{3}}}{\text{(aq)}}\). The following data were recorded for the titration.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-23_om_06.22.04.png" alt="N12/4/CHEMI/SP2/ENG/TZ0/01.c"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">(i) <span class="Apple-converted-space"> </span>State the number of significant figures for the masses of \({{\text{I}}_{\text{2}}}{\text{(s)}}\) and ICl(l).</p>
<p class="p2"> </p>
<p class="p1">\({{\text{I}}_{\text{2}}}{\text{(s)}}\):</p>
<p class="p2"> </p>
<p class="p1">ICl (l):</p>
<p class="p2"> </p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>The iodine used in the reaction was in excess. Determine the theoretical yield, in g, of ICl(l).</p>
<p class="p1">(iii) <span class="Apple-converted-space"> </span>Calculate the percentage yield of ICl(l).</p>
<p class="p1">(iv) <span class="Apple-converted-space"> </span>Using a digital thermometer, the students discovered that the reaction was exothermic. State the sign of the enthalpy change of the reaction, \(\Delta H\).</p>
<div class="marks">[6]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Although the molar masses of ICl and <span class="s1">\({\rm{B}}{{\rm{r}}_2}\) </span>are very similar, the boiling point of ICl is 97.4 °C and that of <span class="s1">\({\rm{B}}{{\rm{r}}_2}\) </span>is 58.8 °C. Explain the difference in these boiling points in terms of the intermolecular forces present in each liquid.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">(i) <span class="Apple-converted-space"> </span>Calculate the percentage of iodine by mass in \({\text{CsIC}}{{\text{l}}_{\text{2}}}{\text{(s)}}\), correct to <strong>three</strong> significant figures.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>State the volume, in \({\text{c}}{{\text{m}}^{\text{3}}}\), of \({\text{0.0500 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}{\text{ N}}{{\text{a}}_{\text{2}}}{{\text{S}}_{\text{2}}}{{\text{O}}_{\text{3}}}{\text{(aq)}}\) used in the titration.</p>
<p class="p1">(iii) <span class="Apple-converted-space"> </span>Determine the amount, in mol, of \({\text{0.0500 mol}}\,{\text{d}}{{\text{m}}^{ - 3}}{\text{ N}}{{\text{a}}_{\text{2}}}{{\text{S}}_{\text{2}}}{{\text{O}}_{\text{3}}}{\text{(aq)}}\) added in the titration.</p>
<p class="p1">(iv) <span class="Apple-converted-space"> </span>The overall reaction taking place during the titration is:</p>
<p class="p1">\[{\text{CsICl(s)}} + {\text{2N}}{{\text{a}}_2}{{\text{S}}_2}{{\text{O}}_3}{\text{(aq)}} \to {\text{NaCl(aq)}} + {\text{N}}{{\text{a}}_2}{{\text{S}}_4}{{\text{O}}_6}{\text{(aq)}} + {\text{CsCl(aq)}} + {\text{NaI(aq)}}\]</p>
<p class="p1">Calculate the amount, in mol, of iodine atoms, I, present in the sample of \({\text{CsIC}}{{\text{l}}_{\text{2}}}{\text{(s)}}\).</p>
<p class="p1">(v) <span class="Apple-converted-space"> </span>Calculate the mass of iodine, in g, present in the sample of \({\text{CsIC}}{{\text{l}}_{\text{2}}}\)</p>
<p class="p1">(vi) <span class="Apple-converted-space"> </span>Determine the percentage by mass of iodine in the sample of \({\text{CsIC}}{{\text{l}}_{\text{2}}}{\text{(s)}}\), correct to <strong>three </strong>significant figures, using your answer from (v).</p>
<div class="marks">[6]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p>An acidic sample of a waste solution containing Sn<sup>2+</sup>(aq) reacted completely with K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub> solution to form Sn<sup>4+</sup>(aq).</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the oxidation half-equation.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the overall redox equation for the reaction between acidic Sn<sup>2+</sup>(aq) and Cr<sub>2</sub>O<sub>7</sub><sup>2–</sup>(aq), using section 24 of the data booklet.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the percentage uncertainty for the mass of K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub>(s) from the given data.</p>
<p style="text-align: left;"><img 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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The sample of K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub>(s) in (i) was dissolved in distilled water to form 0.100 dm<sup>3 </sup>solution. Calculate its molar concentration.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>10.0 cm<sup>3</sup> of the waste sample required 13.24 cm<sup>3</sup> of the K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub> solution. Calculate the molar concentration of Sn<sup>2+</sup>(aq) in the waste sample.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iii.</div>
</div>
<br><hr><br><div class="specification">
<p>There are many oxides of silver with the formula Ag<sub>x</sub>O<sub>y</sub>. All of them decompose into their elements when heated strongly.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>After heating 3.760 g of a silver oxide 3.275 g of silver remained. Determine the empirical formula of Ag<sub>x</sub>O<sub>y</sub>.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why the final mass of solid obtained by heating 3.760 g of Ag<sub>x</sub>O<sub>y</sub> may be greater than 3.275 g giving one design improvement for your proposed suggestion. Ignore any possible errors in the weighing procedure.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Naturally occurring silver is composed of two stable isotopes, <sup>107</sup>Ag and <sup>109</sup>Ag.</p>
<p>The relative atomic mass of silver is 107.87. Show that isotope <sup>107</sup>Ag is more abundant.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Some oxides of period 3, such as Na<sub>2</sub>O and P<sub>4</sub>O<sub>10</sub>, react with water. A spatula measure of each oxide was added to a separate 100 cm<sup>3</sup> flask containing distilled water and a few drops of bromothymol blue indicator.</p>
<p>The indicator is listed in section 22 of the data booklet.</p>
<p>Deduce the colour of the resulting solution and the chemical formula of the product formed after reaction with water for each oxide.</p>
<p><img 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"></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain the electrical conductivity of molten Na<sub>2</sub>O and P<sub>4</sub>O<sub>10</sub>.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Outline the model of electron configuration deduced from the hydrogen line emission spectrum (Bohr’s model).</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>The structure of an organic molecule can help predict the type of reaction it can undergo.</p>
</div>
<div class="specification">
<p>Improvements in instrumentation have made identification of organic compounds routine.</p>
<p>The empirical formula of an unknown compound containing a phenyl group was found to be C<sub>4</sub>H<sub>4</sub>O. The molecular ion peak in its mass spectrum appears at <em>m</em>/<em>z </em>= 136.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The Kekulé structure of benzene suggests it should readily undergo addition reactions.</p>
<p>Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â Â <img src="images/Schermafbeelding_2018-08-10_om_10.35.21.png" alt="M18/4/CHEMI/SP2/ENG/TZ2/07.a_01"></p>
<p>Discuss two pieces of evidence, <strong>one </strong>physical and <strong>one </strong>chemical, which suggest this is not the structure of benzene.</p>
<p><img src="data:image/png;base64,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"></p>
<p>Â </p>
<div class="marks">[2]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Formulate the ionic equation for the oxidation of propan-1-ol to the corresponding aldehyde by acidified dichromate(VI) ions. Use section 24 of the data booklet.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The aldehyde can be further oxidized to a carboxylic acid.</p>
<p>Outline how the experimental procedures differ for the synthesis of the aldehyde and the carboxylic acid.</p>
<p><img 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"></p>
<p>Â </p>
<div class="marks">[2]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the molecular formula of the compound.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the bonds causing peaks <strong>A </strong>and <strong>B </strong>in the IR spectrum of the unknown compound using section 26 of the data booklet.</p>
<p><img src="images/Schermafbeelding_2018-08-10_om_10.50.17.png" alt="M18/4/CHEMI/SP2/ENG/TZ2/07.c.ii_01"></p>
<p>Â <img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">c.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce full structural formulas of <strong>two </strong>possible isomers of the unknown compound, both of which are esters.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the formula of the unknown compound based on its <sup>1</sup>H NMR spectrum using section 27 of the data booklet.</p>
<p><img src="images/Schermafbeelding_2018-08-10_om_10.59.18.png" alt="M18/4/CHEMI/SP2/ENG/TZ2/07.c.iv"></p>
<div class="marks">[1]</div>
<div class="question_part_label">c.iv.</div>
</div>
<br><hr><br><div class="specification">
<p>The reactivity of organic compounds depends on the nature and positions of their functional groups.</p>
</div>
<div class="specification">
<p>The structural formulas of two organic compounds are shown below.</p>
<p style="text-align: center;"><img src="data:image/png;base64,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"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the type of chemical reaction and the reagents used to distinguish between these compounds.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the observation expected for each reaction giving your reasons.</p>
<p><img 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"></p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the number of signals and the ratio of areas under the signals in the <sup>1</sup>H NMR spectra of the two compounds.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[4]</div>
<div class="question_part_label">a.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain, with the help of equations, the mechanism of the free-radical substitution reaction of ethane with bromine in presence of sunlight.</p>
<div class="marks">[4]</div>
<div class="question_part_label">b.</div>
</div>
<br><hr><br><div class="specification">
<p>The Bombardier beetle sprays a mixture of hydroquinone and hydrogen peroxide to fight off predators. The reaction equation to produce the spray can be written as:</p>
<table style="width: 388.667px; margin-left: 120px;">
<tbody>
<tr>
<td style="width: 211px;">C<sub>6</sub>H<sub>4</sub>(OH)<sub>2</sub>(aq) + H<sub>2</sub>O<sub>2</sub>(aq)</td>
<td style="width: 18px;">→</td>
<td style="width: 195.667px;">C<sub>6</sub>H<sub>4</sub>O<sub>2</sub>(aq) + 2H<sub>2</sub>O(l)</td>
</tr>
<tr>
<td style="width: 211px;">hydroquinone</td>
<td style="width: 18px;"> </td>
<td style="width: 195.667px;">quinone</td>
</tr>
</tbody>
</table>
<p style="text-align: center; padding-left: 120px;"><br> </p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the enthalpy change, in kJ, for the spray reaction, using the data below.</p>
<p>\(\begin{array}{*{20}{l}} {{{\text{C}}_{\text{6}}}{{\text{H}}_{\text{4}}}{{{\text{(OH)}}}_{\text{2}}}{\text{(aq)}} \to {{\text{C}}_{\text{6}}}{{\text{H}}_{\text{4}}}{{\text{O}}_{\text{2}}}{\text{(aq)}} + {{\text{H}}_{\text{2}}}{\text{(g)}}}&{\Delta {H^\theta } = + {\text{177.0 kJ}}} \\ {{\text{2}}{{\text{H}}_{\text{2}}}{\text{O(l)}} + {{\text{O}}_{\text{2}}}{\text{(g)}} \to {\text{2}}{{\text{H}}_{\text{2}}}{{\text{O}}_{\text{2}}}{\text{(aq)}}}&{\Delta {H^\theta } = + {\text{189.2 kJ}}} \\ {{{\text{H}}_{\text{2}}}{\text{O(l)}} \to {{\text{H}}_{\text{2}}}{\text{(g)}} + \frac{{\text{1}}}{{\text{2}}}{{\text{O}}_{\text{2}}}{\text{(g)}}}&{\Delta {H^\theta } = + {\text{285.5 kJ}}} \end{array}\)</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The energy released by the reaction of one mole of hydrogen peroxide with hydroquinone is used to heat 850 cm<sup>3</sup> of water initially at 21.8°C. Determine the highest temperature reached by the water.</p>
<p>Specific heat capacity of water = 4.18 kJ\(\,\)kg<sup>−1</sup>\(\,\)K<sup>−1</sup>.</p>
<p>(If you did not obtain an answer to part (i), use a value of 200.0 kJ for the energy released, although this is not the correct answer.)</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the species responsible for the peak at <em>m/z</em> = 110 in the mass spectrum of hydroquinone.</p>
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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the highest <em>m/z</em> value in the mass spectrum of quinone.</p>
<p style="text-align: left;"><img 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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p>This question is about carbon and chlorine compounds.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Ethane, C<sub>2</sub>H<sub>6</sub>, reacts with chlorine in sunlight. State the type of this reaction and the name of the mechanism by which it occurs.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Formulate equations for the two propagation steps and one termination step in the formation of chloroethane from ethane.</p>
<p><img 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"></p>
<div class="marks">[3]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>One possible product, <strong>X</strong>, of the reaction of ethane with chlorine has the following composition by mass:</p>
<p style="text-align: center;">carbon: 24.27%, hydrogen: 4.08%, chlorine: 71.65%</p>
<p>Determine the empirical formula of the product.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The mass and <sup>1</sup>H\(\,\)NMR spectra of product <strong>X</strong> are shown below. Deduce, giving your reasons, its structural formula and hence the name of the compound.</p>
<p style="text-align: left;"><img src="data:image/png;base64,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"></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Chloroethene, C<sub>2</sub>H<sub>3</sub>Cl, can undergo polymerization. Draw a section of the polymer with three repeating units.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>Alkenes are widely used in the production of polymers. The compound <strong>A</strong>, shown below, is used in the manufacture of synthetic rubber.</p>
<p><img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAgIAAAI2CAYAAAAiruB3AAAKqGlDQ1BJQ0MgUHJvZmlsZQAASImVlwdUU1kax+976Y0WiHRCDb13pNdQBOkgKiGhhBJCIKjYlUEFx4KKCFhAhqrAqBRRERHFwiCg2HVABhF1HSyIipp9yBJ2ds/unv2f8533y/fu++73bu495/8AIF9j8fmpsBQAabwsQbC3Gz0yKpqOGwEQwAACIAJ1FjuT7xoU5A8QzV//qo93kdGIbhvN1vr3+/9V0pz4TDYAUBDCcZxMdhrCZ5BoYvMFWQCgOEhec1UWf5a3IywrQBpEuGyWE+e4aZbj5rj7x5jQYHeE7wOAJ7NYgkQASH8geXo2OxGpQ0YjbMrjcHkIWyLsxE5iIfOQkXvAMC0tfZaPIawb9091Ev9SM05ck8VKFPPcu/wQ3oObyU9lrfk/l+N/Ky1VOD+HBhLkJIFP8Ox8yJrVpKT7iZkXtyRwnrmcuZ5mOUnoEzbP7Ez36HnmsDz85lmYEuY6zyzBwrPcLGboPAvSg8X1ealL/MX145lijs/0DJnnBK4Xc55zkkIj5jmbG75knjNTQvwWxriL8wJhsLjnBIGX+B3TMhd6Y7MW5spKCvVZ6CFS3A8n3sNTnOeFicfzs9zENfmpQQv9p3qL85nZIeJns5ANNs/JLN+ghTpB4vUBXBAAWICdFb96dl8B93T+GgE3MSmL7oqckng6k8c2NqSbm5rZADB75ub+0ve0H2cJot1YyG1tBsCxQyQSnVvI+e0B4DQDAGL/Qo6xFwBJJQCulbOFguy53OxWR04yEUgCWaAAVIEm0AVGwBxYAwfgAjyBLwgEoSAKrABskATSgACsAuvAZpAHCsAecACUgKPgOKgBJ8Ep0ArOg0vgKrgJ+sEQeASGwRh4BSbBRzADQRAOokBUSAFSg7QhA8gcsoWcIE/IHwqGoqBYKBHiQUJoHbQVKoAKoRKoHKqFfoXOQpeg69AA9AAagSagd9AXGAWTYVlYBdaBTWBb2BX2g0Ph5XAinAHnwLnwLrgYroBPwC3wJfgmPAQPw6/gKRRAkVA0lDrKCGWLckcFoqJRCSgBagMqH1WEqkA1oNpRPajbqGHUa9RnNBZNRdPRRmgHtA86DM1GZ6A3oHeiS9A16BZ0N/o2egQ9if6OoWCUMQYYewwTE4lJxKzC5GGKMFWYZswVzBBmDPMRi8XSsAysDdYHG4VNxq7F7sQexjZiO7ED2FHsFA6HU8AZ4BxxgTgWLguXhzuEO4G7iBvEjeE+4Ul4Nbw53gsfjefht+CL8HX4Dvwgfhw/Q5AiaBPsCYEEDmENYTehktBOuEUYI8wQpYkMoiMxlJhM3EwsJjYQrxAfE9+TSCQNkh1pKYlL2kQqJjWRrpFGSJ/JMmR9sjs5hiwk7yJXkzvJD8jvKRSKDsWFEk3Jouyi1FIuU55SPklQJYwlmBIciY0SpRItEoMSbyQJktqSrpIrJHMkiyRPS96SfC1FkNKRcpdiSW2QKpU6K3VPakqaKm0mHSidJr1Tuk76uvQLGZyMjoynDEcmV+a4zGWZUSqKqkl1p7KpW6mV1CvUMVmsLEOWKZssWyB7UrZPdlJORs5SLlxutVyp3AW5YRqKpkNj0lJpu2mnaHdpXxapLHJdFL9ox6KGRYOLpuWV5F3k4+Xz5Rvlh+S/KNAVPBVSFPYqtCo8UUQr6isuVVyleETxiuJrJVklByW2Ur7SKaWHyrCyvnKw8lrl48q9ylMqqireKnyVQyqXVV6r0lRdVJNV96t2qE6oUdWc1Lhq+9Uuqr2ky9Fd6an0Yno3fVJdWd1HXahert6nPqPB0AjT2KLRqPFEk6hpq5mguV+zS3NSS00rQGudVr3WQ22Ctq12kvZB7R7taR2GToTONp1WnRcMeQaTkcOoZzzWpeg662boVuje0cPq2eql6B3W69eH9a30k/RL9W8ZwAbWBlyDwwYDhhhDO0OeYYXhPSOykatRtlG90YgxzdjfeItxq/EbEy2TaJO9Jj0m302tTFNNK00fmcmY+ZptMWs3e2eub842LzW/Y0Gx8LLYaNFm8dbSwDLe8ojlfSuqVYDVNqsuq2/WNtYC6wbrCRstm1ibMpt7trK2QbY7ba/ZYezc7Dbanbf7bG9tn2V/yv5PByOHFIc6hxeLGYvjF1cuHnXUcGQ5ljsOO9GdYp2OOQ07qzuznCucn7lounBcqlzGXfVck11PuL5xM3UTuDW7Tbvbu6937/RAeXh75Hv0ecp4hnmWeD710vBK9Kr3mvS28l7r3emD8fHz2etzj6nCZDNrmZO+Nr7rfbv9yH4hfiV+z/z1/QX+7QFwgG/AvoDHS7SX8Ja0BoJAZuC+wCdBjKCMoHNLsUuDlpYufR5sFrwuuCeEGrIypC7kY6hb6O7QR2G6YcKwrnDJ8Jjw2vDpCI+IwojhSJPI9ZE3oxSjuFFt0bjo8Oiq6KllnssOLBuLsYrJi7m7nLF89fLrKxRXpK64sFJyJWvl6VhMbERsXexXViCrgjUVx4wri5tku7MPsl9xXDj7ORPxjvGF8eMJjgmFCS8SHRP3JU4kOScVJb3munNLuG+TfZKPJk+nBKZUp4hSI1Ib0/BpsWlneTK8FF53umr66vQBvgE/jz+cYZ9xIGNS4CeoyoQyl2e2Zcki5qZXqCv8STiS7ZRdmv1pVfiq06ulV/NW967RX7NjzXiOV84va9Fr2Wu71qmv27xuZL3r+vIN0Ia4DV0bNTfmbhzb5L2pZjNxc8rm37aYbinc8mFrxNb2XJXcTbmjP3n/VJ8nkSfIu7fNYdvR7ejt3O19Oyx2HNrxPZ+Tf6PAtKCo4OtO9s4bP5v9XPyzaFfCrr7d1ruP7MHu4e25u9d5b02hdGFO4ei+gH0t++n78/d/OLDywPUiy6KjB4kHhQeHi/2L2w5pHdpz6GtJUslQqVtpY5ly2Y6y6cOcw4NHXI40HFU5WnD0yzHusfvl3uUtFToVRcexx7OPP68Mr+z5xfaX2irFqoKqb9W86uGa4JruWpva2jrlut31cL2wfuJEzIn+kx4n2xqMGsobaY0FTaBJ2PTy19hf757yO9V12vZ0wxntM2XN1Ob8FqhlTctka1LrcFtU28BZ37Nd7Q7tzeeMz1WfVz9fekHuwu4OYkduh+hizsWpTn7n60uJl0a7VnY9uhx5+U730u6+K35Xrl31unq5x7Xn4jXHa+ev218/e8P2RutN65stvVa9zb9Z/dbcZ93XcsvmVlu/XX/7wOKBjkHnwUu3PW5fvcO8c3NoydDA3bC79+/F3Bu+z7n/4kHqg7cPsx/OPNr0GPM4/4nUk6Knyk8rftf7vXHYevjCiMdI77OQZ49G2aOv/sj84+tY7nPK86JxtfHaF+Yvzk94TfS/XPZy7BX/1czrvL9J/63sje6bM3+6/Nk7GTk59lbwVvRu53uF99UfLD90TQVNPf2Y9nFmOv+Twqeaz7afe75EfBmfWfUV97X4m9639u9+3x+L0kQiPkvA+mEFUEjACQkAvKsGgBIFALUf8Q8Sc574h6A5H/+DwH/iOd/8Q9YANCCXWSvk3glAExI6LgBIIL9nLVGoC4AtLMTxD2UmWJjP1SIjzhLzSSR6rwIArh2AbwKRaOawSPStEmn2AQCdGXNefFZY5AulAefE9lg20G6yCfyL/g6ASgOXEKUHbQAAAAlwSFlzAAAWJQAAFiUBSVIk8AAAAxppVFh0WE1MOmNvbS5hZG9iZS54bXAAAAAAADx4OnhtcG1ldGEgeG1sbnM6eD0iYWRvYmU6bnM6bWV0YS8iIHg6eG1wdGs9IlhNUCBDb3JlIDUuNC4wIj4KICAgPHJkZjpSREYgeG1sbnM6cmRmPSJodHRwOi8vd3d3LnczLm9yZy8xOTk5LzAyLzIyLXJkZi1zeW50YXgtbnMjIj4KICAgICAgPHJkZjpEZXNjcmlwdGlvbiByZGY6YWJvdXQ9IiIKICAgICAgICAgICAgeG1sbnM6dGlmZj0iaHR0cDovL25zLmFkb2JlLmNvbS90aWZmLzEuMC8iCiAgICAgICAgICAgIHhtbG5zOmV4aWY9Imh0dHA6Ly9ucy5hZG9iZS5jb20vZXhpZi8xLjAvIj4KICAgICAgICAgPHRpZmY6T3JpZW50YXRpb24+MTwvdGlmZjpPcmllbnRhdGlvbj4KICAgICAgICAgPHRpZmY6WVJlc29sdXRpb24+MTQ0PC90aWZmOllSZXNvbHV0aW9uPgogICAgICAgICA8dGlmZjpSZXNvbHV0aW9uVW5pdD4yPC90aWZmOlJlc29sdXRpb25Vbml0PgogICAgICAgICA8dGlmZjpDb21wcmVzc2lvbj4xPC90aWZmOkNvbXByZXNzaW9uPgogICAgICAgICA8dGlmZjpQaG90b21ldHJpY0ludGVycHJldGF0aW9uPjI8L3RpZmY6UGhvdG9tZXRyaWNJbnRlcnByZXRhdGlvbj4KICAgICAgICAgPHRpZmY6WFJlc29sdXRpb24+MTQ0PC90aWZmOlhSZXNvbHV0aW9uPgogICAgICAgICA8ZXhpZjpQaXhlbFhEaW1lbnNpb24+NTE0PC9leGlmOlBpeGVsWERpbWVuc2lvbj4KICAgICAgICAgPGV4aWY6UGl4ZWxZRGltZW5zaW9uPjU2NjwvZXhpZjpQaXhlbFlEaW1lbnNpb24+CiAgICAgIDwvcmRmOkRlc2NyaXB0aW9uPgogICA8L3JkZjpSREY+CjwveDp4bXBtZXRhPgpQlxD5AABAAElEQVR4Aey9B5xeR3X3P1u1WvW+KpZkW1Zx793YVGPjgoEkpoYSCJACyf9NgcRgCGkvIbz5QAIGTImJIdjGYMAV915k46pmdav3Lm39n+85z3nufR7tqlja3WelM9LdmTt32nPunTm/OXPmTFWHuBQuKBAUCAoEBYICQYHDkgLVh+Wvjh8dFAgKBAWCAkGBoIBSIIBAfAhBgaBAUCAoEBQ4jCkQQOAwfvnx04MCQYGgQFAgKBBAIL6BoEBQICgQFAgKHMYUCCBwGL/8+OlBgaBAUCAoEBQIIBDfQFAgKBAUCAoEBQ5jCgQQOIxffvz0oEBQICgQFAgKBBCIbyAoEBQICgQFggKHMQUCCBzGLz9+elAgKBAUCAoEBWqDBEGBoEBQICiw/xTYsWOHZqqqqsoyExZjrTU1tamuLobXjDARqmQKxJdayW8n2hYUCApUDAV27tyZNm7clBYvWZqqq6vT5s1bhOHXKMPn3i8a3K9fferfv38aPWpUqq2tSQMGDKiY3xENCQqUU6AqzhooJ0ncBwWCAkEBo0BzS0tav35DWrNmbVq1alVqaWlVxl9bWyeMvkGBQG1trYCAqlRVVS33rLYiIehI7e3ZMS6Njf1T05jRqaGhQQFD0DcoUEkUCCBQSW8j2hIUCAr0OgWY+S9avCStXr0mbdq0WRh8lTD/ulRfXycz/X5F5s9MnyUAJAEAAHzSug8gKKwUyG/qkBUDu5AiDB82LA0ePKjXf2s0ICgABQIIxHcQFAgKBAUKFNiwcWO6/fa7lGk3NjYmLgCAr/kDBGD2BgIAAgYGYPi+NMDzUkCQkdfBQItIGsjb1DQm9auvzxJEKCjQCxSIXQO9QPSoMigQFKg8Cqxbvz795jd3ptbWVgUASAFg+NXVMHtm/TXK4AmzDGBLATx3KUCmJ0BaWy4QgCDAwK+agvSgXph/W1tbWr58RdqyZWvlESNadFhRICQCh9Xrjh8bFAgKlFNg5cpVaf2GjemJJ57UJQCkAKzlo/UPwwYQwNjLgYHpBmQAoVQiAACQeVZBOoCEIO/a29tTh1ztslyAdGDQoIGqUNggEodwQYGepkDsGuhpikd9QYGgQMVQYP6CheknP/lfWa8fnIYOHaoAAOZvywEm+neGD6M3nQCTANg9M/9MN0ClAOgGaFqTIIAByoFASjW6/IBCISBj585dqo8wVpYK2G0QLijQkxQIINCT1I66ggJBgYqhwOw5c9O9996fhg8frgAAhm+XLQfkZ/gWNuU/lAC5N2f6AK4XIHfK9Iv3ORCwOxgQOFBDWZaH5YM1a9fpssTwYUNzdVQMyaIhhygFAggcoi82flZQICjQNQV+9es70v3335eOOGKiSgN2BwEw52ymnzH2HONWSYDN9u15YeYvDN2kBJkkQO8FJJQ4uZV9BCoZEAySOgo6CFu2bEl1EjFkyOCS5HETFOguCjis7a7yo9ygQFAgKFBRFFi4aEl66KEHRRIworj+b4wbRm2MngYj0vd4m83b8yyc/SyLs0wGCmyWb+WQz1z+GWH0CNQXUKFKhwIG0BPYIVsYwwUFeooCAQR6itJRT1AgKNDrFMBGwA03/FikAEMKCoGmCGha/q74ZzsCnGnnG52Py4dJI6xfkxLvztPwrBiW5/kwYMABAbsUakU5EQXCJUtfE92BAAROy/C7jwIBBLqPtlFyUCAoUGEUuO1Xt6ft27frbgBn/jBlZv6+3Q+Bfd7B151x5+M7C+fTEc47v/c05b6DAbYnskMBt0J2NLCdMVxQoDspEECgO6kbZQcFggIVQwH267MkwK6APAhwBs2cPruM+e9v4ylLRfyiAIhTZl+QBvi9Psj9KQcEPAKYIB3A1sCOHSEVyJErgt1AgQAC3UDUKDIoEBSoPAr87KZbdFeAz7ZNCmBr9M6M863GCqA7twjovsfjk7fcEccMv0aMEXk9AIS8y2fz+n0JQfNIfrYSYu0wXFCgOykQQKA7qRtlBwWCAhVBgeUrVqSZM2fKWQF26E+5RKAzZu4Nb3nmm+l977wyXXX5ZendX38qtShAyM4O8HSUgREiyq6VMwjMDPGCdMN7z0gnHX98OvG0L6ZH2kxi4CDAfS8DX3UGsFYo5bClEONDO3ftyieJcFDgoFIggMBBJWcUFhQIClQiBe6667ciZm8tWesvZ/55CYD/ht3jMilBPk0+nUoCMEksWwBV78ATir97nbmHhedsKcSR1q9169ZrXPwJCnQHBQIIdAdVo8ygQFCgIigAg37woUfT448/picH5mfgzrzx82FTFsxm/P7MfhDxkqKQh3C5g3kzm68XhT+1UFhcERCFRAUHthyRz+d1uM8zBQ1SFhKGrVu3ihnkDfksEQ4KHDQKBBA4aKSMgoICQYFKo8COHTvSLbfcrMxUWKsw11ImjNgd54w9H8b8r8VrEvujIEDOCSiCB08jDwoow2fxRd2AIhAwpu4mi3OlajAPAvyZlWHHIK8Vq4MtLbGDwGkT/sGjQACBg0fLKCkoEBSoMApgspe9+M6c881zxgsY0EOAhLlnvk31ScPBQEVXAAAZSLA8Dih0Fl9MvOcAxWr5Uj++XgVLg+T0OMIAgra2dtlBsIPbcEGBg0qBAAIHlZxRWFAgKFBJFGAW3draIk0yJT3aVs58vb27gwBn0J5Cc0v+jEl7HsrMu/0BBJ5PoEAJ8/d495EkbA8g4OQI/yBSIIDAQSRmFBUUCApUFgVee22ZrNPb0b7OrH2m7b4zc2t5xoz9uefz5zb793QGCvRZAQzk9RBKqdFJnkKC9o5siYKozupG8RBjSOGCAgebAnHo0MGmaJQXFAgKVAwFli1bpmJ1ZuiI82HixshTMexx+K2tbZK+Rp61yW/AZ/qf+zkqDWgXMT0L/6bVLzZ/1LVKQPOLHkJtQdTfGSgQOKB1YyyIsAMNZ/4U5m3t0GUDK5+/mB6mnSwVhAsKHCwKBBA4WJSMcoICQYGKowDa9jBsd8p8hUnjo43vIMCZsN/DiKurYdKyPAAYKDrimLGzbAC4QAGwSsIdagp4l+z3pwx3VVWtomPgd/mZPvjCAEH21EKUr2UQEGdtM7+5OYCAUSn+HkwKBBA4mNSMsoICQYGKoQDMHsaMg5kq6xXfGbUzfZ4RtjTOeC3O0pZwcksrs36KdMBgvuVFJ6FF7AhU7UIvoSW1FbMjSWhLIpMotsnrtDZmdROvV1FiYACkM6VHLSz+BAUOgAIBBA6AeJE1KBAUqFwKsFtg9epVxQY644cZc5kmvjBmAQFc+XgXvSMVKPBtLaf5vn9M772vWOR+BmTpYVdzaq4VkCESBXYBGNCwYhwU2HIA8gLASAZIkEKQft36DWn0qJH7WXckDwp0TYEAAl3TJp4EBYICfZgC5bNnZvBIBXRWnmP8nO5HWgcG+FymVyDr+HnZ/gHRAx2CltQqKxVFEGCN0lKLQEClAJl0ADDgEgLaHlsID+glROZOKBBAoBOiRFRQIChw6FHAmSm+SwE8nH/mcZZG0ANi+oNBDimnTQwCtQro0PoEjHRVsreHNpg+gkkHPP5gNCfKCAo4BQIIOCXCDwoEBQ55Crj436UA+XuXCLgSIWkIAwTc1b/h/6Rvf/K01E/ieWZWAs1iYY3oBbDjwI4hdqnConTTJz+VvjMHXQVZDpAyW0QigLSh3MHkcc7sDQSY4qCBElvG8HTl+eN+/yjQLDswmmWphgOd0CXhgCd9LwWfMLQe0NioB0jxrrkORXdo/qpD8U3FbwoKBAUOCgVg8A4E8BncGfQBAjB3f0ZlGs4vDTCrR8dAnpHHmDV5Se2M3BgIMcRlOEJ0BFQiYE+U6Viw5K8DAfepwwELPvfhXh8FVq5cpWc2bN26TZZYdqpdhoaGfmJrol6/A96/ATnzfccJUhnsUTQ0NKQhQwalAQMGpH6S51BxAQQOlTcZvyMoEBQooYAzd1mRL8Y7U2U/Ps9h9Fw4BwL4XDBiLSNT+5c4UzTMShRrA8I8jGnb3n7OM+DedhK05pYVAAUwcpMGkC5zmdTB8rIkwFOAhykW4tNuwEC4faMA73b5ipVpwYJFqluBjkZtbZ0cQFWvh1ANHz5M3x/HRyPNQarDe3FfPhH9FvgO7L20pfWirLlu3QYpp0YBwbChQ/X46X1rUWWmCiBQme8lWhUUCAocIAX69++fxo0bnxYtWlQsyZizzbBhEj7Dxuce6QBhgABOnwsDzpwx+PaqdgUJPMfBKNyvqhIFww7ABDHCyIs83nQTMEZE8qqq4gPNq6mF+wMA8noB1OEXzKhpzJhi+gjsmQJ3yvHTa9asSUOFWTPz798fMX+tngpZJ6dDwvCzJR6WemQpSOxO5IGAgkF5mf6OqZH3wLVt23Y9GXL0qFFp4MABe25MBT8NIFDBLyeaFhQIChwYBZxR50thZl1Tw1a8jMHy3JcF8LlwKh3I82tlAOSFkcMcDBCQDmmDMXiL1wJy8gDubWsgoIEZpqUo/WsMhrJst4C1M2tre2ps7F+aJe52owA7K+648560efNmEeUPUdE/jB8Q4Mwf33Q6WAZwaYDpCfBuXdfDgIABvawiu+c7QUqzfMUKBRsjChKGLF3fCAUQ6BvvKVoZFAgKvA4KjB8/Pi1ZsliZtmdnJufLAYiKm5trRLRbJ2kyPQHCDPL4VXmJgIAHjgKukZkjjLyjw5YFPD33gAOYDMy8uhrLgs7xTVmQXQMAAfKUO9ompSoIID+SAcAMFgVNYmFtKs8X90YBAMAzM59LS5e+pvQaNGiQruvX1xsIYAmA92qAwAGASQL8HeIrACxIAXhN1SzjSIBn+ffG+6qRdJSP3YqVq1angaI/MGjQQC2jr7yXAAJ95U1FO4MCQYH9psDYsU3KkGHMecdsGwarTL3GdATKGQCDvMbllQUFCLRLPlb+ZXJZcKSz8skDE3GfnQLF7PKsXUAFdgTKGUqxJElDXgAAbQQMWDsNCNjM1aQVnid8o8C8VxekX//6N0rbESNGyDJA/8ISgDF/AIBfxuhNIZBvg/fhwM9BABIB/Sfv059RE8CA9O5MciOAACmTfBvrN2xMLbLMNHLEcE9S8X7xU674lkYDgwJBgaDAflJgwoQJOlMbMGBgpznb2tATwKAQ+gB29gCM1yUGMICMk0sRwqB5JnNIyeN6AiwhAAasCmPkLgUQpl6sWcI6y0eSADMpBSckM90A2zJIObTFLqt35MihxdIiUEqBBx98SCPQ6Oe9sd5fU8N7gtGbAmgJk5cXZs98lm++gzQFAZrG462+PAggBsAgb1N9IGWDKCJu27YtDR48KNWLpKkvuAACfeEtRRuDAkGB10WBAQMaVTSMuJ3B2p0xWZQAq1TszqwOpgADgVkw2JNGwzKLLzJz0foHCFTrrN1m7zAcDiCy9DbLJMxVeugQEgFh7Mr/aUteCbHYsqIkwKUBJhFoVsW0qVOHecLwCxTYsHFjeuihR0Wbf72u05sSoIEAY/zGpIsMXkhvAADfmbx9G9m9PZMEhe+hcC91kgbnPmF711UqJWpHIiT/2KqIzkCj2CHIpyV9pbkAApX2RqI9QYGgwEGjwOjRowQI9Bdmv2u3wZjBGybLIG3HDptyIJXzTKUBEq5pzRh2R7sYBBLlMIAA4IJ0pgtgW85UgCDJDUwwCxXGX0QRpiPQQgXiOmMOphdgZXKkMRICgMf27TvU6E1TU+wYMOrZ3zlz56Uf/vBHwmwHJJYDsAeQKQWaAqADuwzkGdAzKQFM3cBAXjkQaYC8oMJ7tOfUyDtTfYFCmDh1klzBgJxEaZKifpK3Vc+FwHARWwwr2e0um6rk1kbbggJBgaDAflAAoy8nn3yyLA/s6DSXMXIYroECmG4mjjexfGteWbDA+EkDoy5N6xr+rOtbGL+IAySEZcHSPFkZ+bopG3CCjx7D9u3bU1NTU58RNXdK7G6IfP75F4Xx16s+gDP6UikALC7PyLNGwNQzMGaz/Oxp5yFP73nzvgKOHKigPXWiSLJx4+a0q7m58wIrJLZKOkD2nVZIo6IZQYGgQFDgYFFg06bN6Sv/+M9py5bNMkvrXNGO2SAzSazHMavkYiD3GaYO6vKcNAz4rnWOb4yHOF+TtpmkKSgSNobj69H8LuFBuzlGYhuOASWACUBDuxrCof63vfVNyvB2y3gYRiA5+c3td6XHHntU1uKH6PKP7xDgnWABsF+/fkXpALsFiM8MB/nOAdMfsPeYUxhk5i80d1BRwvALuh15UOBsFJ+L0yXxAXLNAgK4xoh0Cv2FSnQhEajEtxJtCgoEBQ4aBYYMGZz+z//5S2UEXRWKjgBb9FpabNBm4GYJoLOLmTvxJhUwy4QWZ/F6wqCmsdm/z/TNJy7LQ5xf+Xjq34UdfNmShh38Cy44N0BA7uXdd/+DskPgVwrcYOIAJQdk7ucZdS6rBv1ZeTz3DtKc+XuafB5/5nH5e8IsH+ADBg2A1KUVojOAdKcSXegIVOJbiTYFBYICB5UCzMbOPvuc9PDDD8ng3PmwxwwOBmxi+Xad4evsTmafMBoYv+sDIBngPs+ESMOFK2dMyhwK2uXONPI/kHLROfAtgwANAAI+M9vhw0JJ0Om1cNGS9Itf/EIkAYOV/jB+p7encd9o7Xd793nfKH4CBjyvll+QJGXvEemNlefAgXueu5NSCmBAlEl5v/Iet2zdUpHvMiQC/tbCDwoEBQ5pClx5xWUFRt31aiiDOQyeWbhfeamASwp4lo93xu2z+9JnLmWAuZdKHSgvKxMpwK6iFABpAOZxTzjhuEP6vezvj3viiSflPWImuF8RAMCscca8jZF7uc6wuW995pvpvVdeka58x6XpXf/+ZGqRhzneXWTkVQouClsOi1sPF6Qbrj4jnXjc8enE076QHimYis6XTx0OBhwIqBKiAMRauVim4vuqNNc5NK60VkZ7ggJBgaDAAVIAa28XXnhRuu++e5WRdFYcM0IGch+sa2palNkQj3OGU57XZvQFzXHJbzNL31VgM0OTJmQzxnwZbpSGNNQNONi6datuPTtiwvh80sM+PGfOnAIAMLp2RpBy5uxpyiGgvyekMcLCPZn6fAe1Ajh8NwGSgiyJ1W0gwkolXF5vERRYQv0uNm7aJNsKK8vYUACBklcfN0GBoMChTIG3isIdjGTFiuXC8DsXiDrTR2sfvQGYNEsAmJHlGWJoXxKAcSMFIA4G7iJqF1fDCMqvcvo6M6IsLw9pwHBhFm94w/kKBsrzHK73d919b1q1aqVuF3Su7MzWaeL07Mwv5dQo9FkuTwv9eXf5MmtlGYjZfEeH+EWsIAFNZ0qBlEJZlJN33OffP9/HunXrVWmwQZYKKsUFEKiUNxHtCAoEBbqdAqy1f+hDH0hf+MIX5bQ4rA0WR/bd6rZZuhgTlsHcRf719cbsXQHMmT+DvYMDDztD4T4fzleUZ0AwIZYUWB6YPn1auuTtb8snPezDiNVvu+02oaUZbXIGmyeMM2LzYcp2OZ3L37bH58vwsJeP4h8MXDQ/RAnQn1bbjoRqgCBg0Q6cKsMBCgK8TbbcYEqNS5YsTcdMOboEcHjJveF3Dol7oyVRZ1AgKBAU6AEKTJ40Mb3nPb8n2/K2S22lM7jy6hnEYfZu2MfX/l2Rz3UDSJN/5uv+DiDc9zR53/UEfIcAFvJGjhxZ3pTD/n7Z8hW6BdSk7EWOrEDNma0z9vJ7iGfPcmTUV2/LN+X5cqn2OZgHAVqefFveDi8EcGHSIwBE5egKhETA31D4QYGgwGFDgSsuvzRNkRnZD37wA2EuW3SW2dWPZzBn0MZiHICA2T2M36QCtfKs9FAblwDYLNKtDGZLBF4Ps0gcZXEBCJAGnHPOOemkk07wZOEXKDB37jzdQgl93TmjxYee+BZnOzD8HukO50HYs0LuQlqecVVVuW/vhVS5qrzKLn2vS/0CCPC40kx8C6midhAEECh9Q3EXFAgKHCYUOHbGtPTBD34w/fSn/6vrzv36NezxlzOoAwiqRRxsjLsgHhb9AcCBGxQi7JeLl933CijLgQCSABQDh4oZ2quv/oM0Y/pUTxZ+jgKzZ8+W2XStMnMHA07HvG9ho68t77g0QEQAJQIggIE94wHvQ16dxBnQEHattXcOBgxUyF9tj5dD3Th8DxfvC8CPe37Htm3bK2YrYQAB3kq4oEBQ4LCkwImyNW/MmD9L//Ef35Cteqtl3bd+r3SAucA4mEEiIUCpEMXD1laUCDnJ0M4dYC0bhgUocMblhQMkfAviuHHj0hvf+MZ05JGT0qSJR3iS8MsosGNHZibaGa37Dqr8PvNNimOHQtnx0Fmxxvzh+wYCUAgsZeCkLX93nt/T4pNf7wtIgzDO0riflQ24AABWigsgUClvItoRFAgK9AoFMDb0hWs+n+67/6F05513KIPuyuhQvoEM8m1yolBbW7MyC6zINTcjDUD0a2AAZUQHA5be1oXHjh2bLrnk7WncuLFp8KBBzCv1PAEAgi8p5Os63MMwWpZO3HEPrZwB45dfTkvieR8K4Iw/WzEFBt4uXBlTzryn9nZAm9Wl9x1imlh2DRgYEGbvDcj58Hw3KewAgMcOAryNuSwVFwwgUHGvJBoUFAgK9DQFsE1/6SVvSzNkueA73/leWr16lQ7+nDWwp50F3k4GfdcjYLaHc4mAAwB0Cs4444x0zDFT0kknHq8WA5EKsEWRNIiimSVWqj16+1W98xdpwFaxyucOSYxd2WzcgQC0dOaLtKa9HU194gSEqTSnWEqBWaMTgN4H1iTNBgQgAoVOyqkRyU6bSHqqq8WsdBEJ2Owei4HU5xclW9jq8DZJpII97iUFt/q9WKre/xtAoPffQbQgKBAUqBAKHDl5Urrm7z+XFi1eovu97733PjlXfoUO7jaz7/zQIm9+KROAeVSlIUOGpkmTJqWjjjpKJQD9+tWnjbIVbuSI4boFDQDRLkyoXuK3yXHDAQScmpkP7W1WjhjfDmWCbi4VwM+HTTMffQ4kM758I0w+BwSa7/3HdPW9WR37FxLlzh07U3OdKHsKwABEGJO3UorAAFAioAVHux0YAGIqyQUQqKS3EW0JCgQFep0CjY2N6dgZ07UdF5x/bpo779U0a9ac9Oijjwo4WKvxZjNgT8Nnh+obYBSI44PxUSa0dWGe1amou3///hoPE4N5tYh0gCNrOT45XNcUMKmLbe2EuToQwAcwOMP1eAMSdtx016XuzxPqlLMgCjsNqEcdU/2CUzBQWEwABDhIdJCAxIFtpXxLve16vwW9TYGoPygQFAgK7IECU0WUz3XeeecIGHg8ob2+ceMGWT5Y3WUuBvfaWjNE5EqBbkuA7YYwDk6iq6uTWasAABgVDAKjMxs3bkqjR40szoC7rOQwfgC/5XKGD+3Kw85wibfnZDpIRJMZPVIcUSnQemkMdbhjIcBdBgJIk7WFbyCXxZP3ih9AoFfI3ruVNoNE5XJRW20t56zHp9C7byVqr3QKIMq/8op36LV9+3bZB76t2IfK2z5z5rPp1ltv1dkeon7WuDlWGIU3nflL/9sp+gFICThdEEXDjlYkBbatDLF39Mlyqmb3zMZZdmlvN1DFEoDP/j0M8GKMg7ZthQOClGEXiqm/8K/SdZ88LfUTIAatM4uFpujJeyI/5XFVVS1KN/3xJ9N1c3ZJCWIQSN5ls/B7SdIpQ3cgYiAEAJABF/QV8sAh+2W9E4rRv3fo3qO1Mght3rI1LRfLXKBjU1CyAYkPHFFoY2N//TDHihgTN2BAY0WIrHqUUFFZUGAfKWB9prHL1G9844WyA+EutV64bdtWUXRrTINkdwBKiTAXmD/9kP5XJ8sAaKazzsy9Pwsg0CV5lYbMtBGvI32BpgABmD8OJg4tuVpb3YCucGyhcdHJ7FzBg0QYYIChk8dm8zBq2/3hs32RABQn+iLtYUIFCijk10DuTwYEKNckAQ5WeNfe1lyWXgsGEOg10nd/xStXrkorV61OmCzduXOXDjAcnIIm9ODBgwofOZ2kSgclWrRYbGADFhoa+unA1TRmtHaq7m9t1BAUOHQowBo/9gHmzZurfQ+m70sDbW1YI2y1S5hJm4TRGYBpdYhaOlIC+mC4rimQMVlbq4fxw2ShGxdhAAJh0rqinizpZ87jZbsg6QAD8HXfQtjRgWIoz4gv2I0o5jZwINk0D3WUO4vydC4RsLYADLRtuSWE8vw9eR9AoCep3c11cSjHwkWLVdsZ0RnbkmDoMP5hw/orQ2fAodMgLvO9zgxA1gkyzVw+7O2iwQwwoEPVycUhLRzlGi4oEBTYMwXoT+eff16aP/9VXQ5ASRDJXHPzLu1/riiGYiAXfRQAAAOjP7JsMKhjoPbLPdd0eDx1xu+/FsYu03uhV5XqWiDWh3YALGiP76J9wjjiq+HcBWfMWMrQZ6ZkyCMhvzrqZIyEoVtYxPn2SP7C0AEeNmZSNo50ece96QgY4ycPYzNLP7xnxtVKcJXRikqgRB9vw5NPPSOazbNVzA/DZmAZMMBm/xnzz45PdSBgZ22zFlboKAVQkCcHHzN6BUgXtstgxgluIbbMUyjCQYHdKXDWmaen3/72Xj3yGJ0CgACSOYA1ugKAAWX6EsdSA/HFLXHC1Di3fpiYHQ4non6hDfTBeJM7GGxVFcy4Wmnp45wyfBnHSA99XVpAfHtmCEC4NpIDYdBSIAzdwQMzdfJiWwDjQjB9c5LWgxKHDQHyIVEt4IBCOvMMEwAESIdkoLAUUQAsLoUoydRLN7540kvVR7UHSgFmE4+IJvPzz7+g+49Zg4RJM7uwmb/5dAi7THnGw64g4x0mi5d0dCLtSNhUr1XpAjbRlyxdqlbQDrTtkT8ocChTAGby8Y9/tMDsdxSAwE4FA4AAdg3YJWHpx5mkTo40FskdErnyGeahTK89/bYG0alobBywWxIYrDFaWyKAmXMhHYDGLiVwv7UMCNgMPWPQpKM8LyN73qrx2YRfti4W7RhkSxLkpQwrBwmFha1+uyeO8klbKS4kApXyJvazHYgO165dl5588mnZbrRRDyxByQhJgAOAPHNHAmAXs38DBYac7VhMwioVUHSr4gG5N3GXN61a0HEta3HyAa+RugcONCtodNJwQYGgwO4UGCemhCdNmpwWL16sQADJAACBHQQuEUA6sKOgw8PMF3BAXwUEbJC+jQQuXFJFy3I6QCOYKmMVvpuGZgy0SY0te3q+qjzzFTE9TFmSan7KgtFzqBT5ccz47dRCkw7ISn+hKAMgUqWNmzKmmvPntkxAeTB8W4Ywuwe8d+pFX6tSXACBSnkT+9EOBpPvXf9DHVhGjx6tSn0OAhCPMdBwOSAwH+ZP5zD9ADoJncc6jICAAgDwPc1FYJADA95RauXrBuHuEMta6CWMkrPTQ3dgP15gJD2sKHDqqaeo0qAvDwDW0RWwrYRotYtkQMAA9wbkDQQg3eOEOs4ioD8f7m7IkCG6zIIoPu9gtoxH6EQxvjFO2bjmUlBn0sLkM9m+cGiZyct6PdJ9GD47BnCZz9HF9i6It2OoCYmTOjSvbGGkPSgTljuYP23xZQF8lwS1trakUWIrolJcfF2V8ib2ox2PPf6UggCOLc0zfFvv56PMTjxzVEzxPIevG5O3dITdYcyE9DhPZ+FcGg3m76tEOrA29UMpUUBIuKBAUKCUAqeffmq6/fbbpc9uF8a+TZkUtgWK2wflxMOdIiGoE2DNkoBvJUQqALAHDAwZMri00MPw7vjjj0svvPC8gKVSCaQxWxPnQ1PE+T7RcTK5GL6qNZvToyMAeKjS9XvGR8Y+2ylg2wiZONmWToBGdbWAhiK/l3V/iWstjIf5cZQ6aZP8BS+oRID8XEgCWlqa9Z2yRbtSXACBSnkT+9iOF158Kc2cOVMGhiE6e8iAgM34XexPccbwnannRWSlIEDuiuDA8nleY/j+kbtviNvKc+CwbNmKNLZpdKfiu338aZEsKHBIUgCFv/e85z3phhtuUCBAn0U6sGvXIGEuGBRqFgYhpoWFibU090uYHW6RA27oZ5xLwDLgkEOSMvv3o4466khl8p3lYraN4iCieuhm0k8boxi3jDELm884uUoEkMZUK9M22wPM4hlDAQTkQVJgYyq+6B4UgYBIRWUJRxYlJD6bGHnbyOtXpjcAWGlRSSqSgQnjx3nyXvdt+tfrzYgG7I0CoMlf/fr29JOf/FQHigwAuKgf9JoxdBh0HhXzsWZXxuiLM//Ccy+D9pC+Gn2Czi4p3/UOmLU0yIC1fsOGvf2MeB4UOCwpcNppp+jsntmg7xiAKeiyAAyloECGT7+jb+EI43xGqzeH6Z+JR0xIRx55dJdgwA7+gXkDCDKlQZ+N64w8Z1DItfidUZPHykDhD03/TNvflBKFuRdpz9JApiSYr8PDVl6mLEi70P9AKjRG7LP4JKpYZC8GQiLQi8Tfn6p/8MMb0sKFC0UpkK17pgeQrYPlQYCJuHwAkaFEBhOQsdWWxRfAgDznIfGdPfM49ymFsKJduoWMV9xzMaN5bdnyNHLkCAEGpeK7/fmtkTYocKhRgGUz+i5nFGDSO7+V0NaN2UVQq7P/hpYGPX8gJRFbF2acbN893PsUjPPSSy9J3/3ud7v8PGDCiORhwgAuH5sYr3B1k96ePvM37yhKUzsADPrExk3SUQ8+2xIJ2+QIvym97drvpYtVYiDjnuRsaSkdNwtFFfKbVMB2HgAaOmTHyA5NctqpJ2vbPH1v+wEEevsN7EP9t/3qdrERMCuNGDFCQYAp/8H8bVbus3j/6PN+Z8XzvNzl4zy/p/Fn7ns8vnQPbG/pDAYpBZ0Pi4aIvbgPFxQIChiTmTFjRnrooQd1WYBZIWCAvsyat4GBOgXTu2QHAcsDPIOxsRV43br1CrAP91MJ0ZUYNGiwzqo7+65g4EhVUjIQYOv0dtoj6XkOXY3R2/o/M3/uGU8Juw/dYfekzwABjN+XHGwSRLnlDqZPmdSPFABgQtnYkeDwqko7ajpG6vI3WGH3y+R8gDvvvFOVhfggYcZ8lJ0xZT7azuM7/1H6oRZm8+QDH+TzW5yBhnw8peXvJWexI2EpC8WnzVu2xLanzskesYcpBaZPn5ruuecu6b92HDFAAOmeSwRgFlzYBjEgYDNTBNIwEcDD4QwE5sydl77xjW8qzfb2CTkYYIyzNf9szLI4G9fykxUPOzCwdAYeDAjYuMt2Qh8r8+Ngvk0sLZCfsvy94g+TraAscVSaCyBQaW8k1x4GhO9//4cycHBIiR1W4mCAZPYR+uweX9Dwc9elj//bg4KHU6p/8zXpfz57Vip/yXyg5Y6yqqoWpP95/wfT11/eKZt2r0rfePwf0hvKNgLQATw7ebSzFAAI65qI09gfu3nzFjVJHDsJyikd94crBY477th0zDHT0oIF81UaABBguyBLar51EFBAGDO0LCHASFBYYysh23VbBnIuQXmPPvQpinLlLbfcqkaFGHPQ9meNX0bBLn+8LxPYOJUx5jzDJw1gDOeMG6afDzO7z5YHHAxkUoHSNsD8DQBQhpsT5p3yvqdPn9Zle3vzweH3RfUmtfez7pdeekUMkSySJYGRRfGUMX8rKB8uxMgHnK/ERFPWYcxARv6p50cEpogXkVcuAR9/TU2mccuHjSsHAxpXBANSj6TjVC6sEIYxFCVZ/AkK6Gz+wgvfkF59da4wsl0iJt6pTAgxMYzNJAN2RggGhwYP7ifGuzCri8lblglq0rbt29JQ2TF0OLlZs+fKkc6/0MPTfCKkuymEfntyxog5bXWnMOc6HRuJ8wsAYGDBQABl+wUAcymA+4yXXJkip4GBfBusbFMydGkAdSDN4TrqyMn55BUTDiBQMa9i94Y8+uhjioBhyO6ceft9qV+CAgqPLC883DtAaR67Y2eAAoJiVfLRCzKuZpYvHzJ5qRu/M8fyAE7bJ+noPBs3btJBi3C4oEBQIKXzzj07Pf30M2nOnNkKBFwi4LsJMAyGCLlFLvoaljxbCgzocJQEPCGWU2+88ScyNsnBZ4WZO99RndheACBBt9IZeelXBg2FpytN/QkM2scxGD+zde5h2NRjUhizLmiM3yZKPva2tbk0oDhYetHqe1kOBAB8uIsuulCkpLubSdaHvfwngEAvv4Cuqt+yZWtaunRpAX0aEvUPsTSPMWZm/RjBYD0xc6BfxGeFtUb52PlI5b/6fKiYNPVyYdgiACg4CcszdjHx3LfK8JD85ufrsjhJqulBzTt3tqXVa9YmjjIOFxQIChgFPvLhD6VrvnCtzBC36gyUA4dgECgN2hJBnYIEGIieHSJLbVvXb1Vzw0uXLksnnnBcGju26ZAn5/0PPKSGmKCBj1H5H008bl/AAKBB4IAyecwQuyY/QMAlA4QBA4yDAALuqVfHxULY7ztrD21hfGVcpRwFdLLUQ/hd73pnRdkNoK15F0AgT40KCn/v+h/IOvsm1S7lo/OLJvpHmDF1a7jfF3+GMnxj3JjAzJ5b2NN52VUieciEDwYEpD8YQpY28GHzUZc7LTcHQLQ8kRCwxrlhw0ZRkBl6WCs5ldMr7g9vCqD5PmXKlDR37hyd2bJ2jDZ5Q4MYFGopSARE0xzmBVNhF85DDz2ifY/+B9huahpTHAcONWoCgO66+970wAP3Kzja0+9DosI6PHTam2QABUIbz0y/wJZcTALgjJ9yYPzQ2YEAvocZ23juY6a3zcZWG1fJ6wqgm+QEyQ984H0VDQL4DQEE/E1WkI/9/ldffVU+Pl5PBgL4SPng3OU/PlNo8Sfu24dJPtecLT6RcviYcZTjYX+e9zt75u1wP5/ew0gFWNbYKUpOh7O2s9Mj/KCAU2Dq1Knp5ZdfUgkAUgAu22Zmy3CA7rnzXi2Kw1kyIA19ceHCRQmJ4eDBg7y4Q8r/7b0PyO6Ku2USNLDL3+XjDvRoaOgvQGqHgIFsbOwqI2CAcUnIW5gYlU6KyAejp3wHBfg2htpYDCjozHk6BwIcBnfmmWemKUcf1VnyiooLIFBRr8Mas3jJEhUb0hH40P2j5KmH/SP1e3yu3MScxBbHgoE8MrBgWsh87JSB64zR64O9/PH8UnqhHq2yJBdIe4soDYat9BKyxM1hToFx45pUpI00AI14LvrhmjVrtC8RzxbC8WKPY+LEI9Lw4cP0tFHt40I7ttKdIWcYHEpu3qvz07PP/k6uZ/cJBBgtbOxBMgBQ2hcwgCQACakvD7S21ggwaNHlAMYrtneabzN/GL9LAaB3Z0CAsZD2AALYBcJyw8UXv02AwOl94hUFEKjA17Rw4WJdG6RpDA4OBvJN5aMrvWDq8nHD8YsuS8OHKkVJnkxfAGmDdSbL0BUgyKchpddL+nbVTcjqKT4vIBI6EB00XFAgKJBR4HjZSoi53NdeW6ra5L/73XNp3do1acTIUWqBkLNE6GccNT5STvfEmBg7CTaIGW/WxmfOfDbNkK1olap8lv3SfQsBbL75zf/U3wYj7sr5WGS6Tza58TiYN4zY9AG6KsHibQxjLDNzwojykcA6AEBxmnvGOBi/M3/uGdPyjrHVLwDdIDkt8qMf/XAaM3pUPllFhwMIVODr8dmBfazGZGmmf2z4/szj4f/eIYo/qRDHM9MRcCZuPnG43fIVC8gCXj6Im/rd5dvhafLlEQYI0EG9M3ne8IMChysFYCbMGP/uc3+b1ooUgOO/JxwxsaBgxjKBbSfcIoa5WCqcOHGCAIQhsiSwRdNAt9eWLUvTp03t8yQEBPzkJ/8rEpBGZbxd/SAfV0wx2seybCxkbPI0LEky7sDYmfB05Tw9Y1d7O4p9cgiRTl7caqspDDJ2AQL88vJ8TDbFwGbR/Tgmfeyjf1hxlgO9vV35pdCmq1QR36MUQD/AzVi6+ApGykfL5R8fPh8gPh+wKRcZc9cGd9iBF1YGqNUPwPA8coa3DDjNMtPAeFGrKChly2zZLF/rLYj/tW5QNGXJlbXJ2kU7JdKqL/jk4SjVcEGBoEBGgTPPOC29+a0Xp82iULZDZpLbtm7R3QIwMIAAfRsx8/r163U8QOmWHQY4lg1mzZqTFdZHQ5ymiiTAJz9d/QzGGZyDAMYUC/uYyPhjSnrsxnjPe34vzZhxrAABLDfuu0QSMIEegQMxbBBwsVTDMdLbxY4D5XNhJwV/wwbeT1W68MKL0ic+/tE+BwKga0gEoEKFOT46d8b4s1OujOln96SzNIWZunQYhwLND341fehBL2l/fQEZzErkA8cpAABxFwABcVnn9DaIpID65XJ07uFNmzcfsspN0CJcUOD1UOBjH/tI+v53rxMwvksZyxBhNi0DBxaBADNRpAAwHZQDB8oz7pm1AhAACzbrfT21924eJAE33shpql1LAnyMoaUwfhxjkdyVjTPYFGjRcwje8Y7L0vnnnZ0uuvD8tHDREj2x9dVX54l11n4KqLSQffiTX2KoqrKlVc8GLjFDRe3pkksuTW9+80V92nhaAAF/sxXkgy5xxkSZyRuT93tm3caYbb+qhYnDqt/B+iGyD1YkBc0dmR5BVqd1SO+k+HqB0rWDWtutvfbMf9PBal2UExQ4FCgwcsTwdOnlV6Rf3frztEXAMtbnBgzcoTN/GBsMn4kBhw7ByIYNG6IAwI3UsNf+LW9+o85I+wo9kELeLdsDH3300YIovnOdgPz4wsDmkwsLIxFgnLE1fpT9pk+fsduM/MjJE9Nf/9Vfyg6M+apXMXv2bAVV7DKAtuW7qbqiIfUgKaBNAJcJEyakM844PY0ePVqWZ47RsrrK2xfiAwj0gbfEx2eifzur3JVi+JABBcwKbO1K1rcy2f6B/TJZVtgl+3l3iTEiHOXb0oN0QEXkpcXTxjwIyJYyDDSsW7dODQv11dlL6a+Nu6DAwaEA/erUU09TIEB/2yYz/x2Dt8v69mCd4SIRYHkAJUEUA1EiHDx4sMbRl2bNmp1OOP44tStwcFrU/aXcc899sj3wnr0qBtISAwM2u8lLBPIgAJE9dOlKLA+djp0xTS/K3CDb+m6++VY582GB2GhYLky8cyBCWneUcfTRU+SsiGPSRRddkIYNHeqPDgk/gECFv0bvCHz4zMi595m53ysThhELagU1u6s7/7PpPz9xeuovh5QAGhhU2ENrPhqx7Jm1OJBxTc3idMsnP5W+PWeXFCFIW1B2S0umJKP1FNrgdcD83Xnd3i73aRcGU/gN4YICQYFSCpxe2AZI/2L2j84OM1wkAm71DkkBywMwvAEDGgUYmCEcnrM9tymNKS20Au/QQ7pXbAQ89NBDquPA7+3MlcZbGh9bdAySKHzGF+g0duy49Ja3vHmf1+Zh4h//o48oIHjtteUCCBamefPmdTqr5x2cd965MvMflaYeM6Wz5h4ScQEEKuw1MpPmckcHMCMYzPxNVEgHIA2zCWfwJhEQrdYcEECEBhP22TllWjo6F1KETFeUozWV+Vu/k7BIIUR5sKWatTHTlpVICdMJCZU675jWUbOlDFdgpM3hggJBgd0pcOyM6enP/uL/S9/4+tfSNln/37RxQxosDB9DOfRvmP1mWTZYubJWdg4M1a2E6AmwtRDlwVdfXZCOmXL07gVXUMwaaet3v3u92ElYLb+nvsuWMX7gzPflABs7bGLBM1OShkmzPn/lFe/QyU2XhXbxAEDAdcLxx3aR4vCJzjjB4fObK/qX2mw9E1XBeJUpF3YFOFBw30EBvl05Li2gIM+IyZNPZ3l9N4Hlz3I74jZgwvIDly8PZOV4ve5bPgBMlsbqrWjCR+OCAr1IgTe84QKtnR0DzPwRd/tBRDA8LsAA1uo45ptz7RFXAxRIX8lu+YoV6Vvfuq7QdhT2TAeqvM0ZCIDx7w4CGFMMBLQpfS4X3Yp3XXXF6wIB5XUf7vcBBCr8C/DZN0zVGHG29S8PBoyps6UvY+UpodxSyujL89hzY9owea/POqLlzwCEWc7yMkp9BwLG9CnX81Eu5lPzywgVTvZoXlCgRynAGvbJp52mde6U5QH0Ahx848MkAQOYFsZvbOyvkgIyYM+eGXcluo3Stg//4YfFLPL8LgEA7c5AgEsEsjjGNnM2sQEgXXXVu9MVl19aiA/vQCkQQOBAKdjN+ekgLA0YEGBmIOJ6GQhgsgwQhH3A0DhhukWn4IEZvTHlPOMmT/6+aGugmFnYtuS3NM7U8xIFZ/zuWz2009pK+6yNzHLGjh2T6mQGEy4oEBTYnQJYC/yjj/9x6i+ifoAASoPsrW9u3qWGcdy2AEyfg7zYQYDZbmbXSAV++9v7NP3uJfdezObNW9I113wxzZ87V5c5OmsJ41t2uQ4UExOfxNjkxMYU2yp5xRVXBgjojJgHEBdA4ACI111ZEfmVOxfJO9PPM/J8uMTEsHQmOz4461RejjNsE+E7Eyed1yzMvwBATGpgDN5ABcCg9LLyKMcAQB5kAF6opyuRoNcYflDgcKbAJW9/a7r40suUMW6SJQDAANsEkQ4ABOjnLA+sWrVaJwQjZOsh+gOMF+wqePiRxyuGfNd95/p05ZVXpjt/82tt0977PoDAFaLzgMBAAZMKfufnP/+36fLLLqmY33moNGR3jnOo/LI+/Dvcelj+J4CabY3MxPMw3jyzJYx+QVXGyTW7zfQd7zF7IJ+VTJnmOFQDRs+CgMchmiNth844SEdn7qpDZ+3zTpxJDyjHzw4vVBheUCAo0AkFTj/99PSLm3+mUgGs2NWJPgBWBAEC9G8kgDB9dAU4f4BdBGzNBRC8+OKLmgbgsHo1Snl1aYkcYEafRWqADzM94ogjtOaGhn56qJH07DRp0hFpxPDhnbRo/6P+87+uS1//6r+mKqmzRi4cAGbQoMHFwnzsMd/HNpNmZmOJgQB+M4qTn/3sn/cp+/3FH9sHAgEEKvAl0cEXL14kLStVqoHZ4xgQGBjo6HRwBQAFJl3VKoxYU8mfdlPwQ/WwowPFIntSU2PoW7Lo7IPk7e0MFsK8PTPAg9m9DiIWif3u8jaRF/jgIMWkB9aBmcHQTqQHE+QUtXBBgaDAnilw8cVvSf9wbYP2GwwMcareroG7BACY3Xz6FFsJN27cpLYDRo0aKbYEZun2N8aD115bKssGDZqPcYHxgQvmChBgArFgwYJiI55//gUN8xyAMHXqMencc84qPt/fwH/fcKOCgLxUEzCwasXyNHnykQpkjPl7yTYWMW7gaB/zExtH2nU75ZgxTekzn/mzAAFOsm7wAwh0A1EPtMjJkyelp556UtB73W5F0UF8G6F3bkf7dPSqVufkklXSIpaH/8OMs85ZUxwYqIBybMDIAQGYO+J/4f10TilafCQChvBLO7N3XDo1kgWTWrjCE1rOdWLLIFxQICiwZwoMl90A7/79P0g3/veP0nZh+A0iDRhcUBx03SD6IzP+5cuXpxWikb9u3Vo1PWw2Qmp1YuCTAwcDjA0l4wQdWhxAw92qVavUauGSJUvTmDGjRa+naZ8PNUIf4IYf35h+cP13VRLgZbq/QtrKMgfjAFJGGz8MBBjztzgHATwn/bRp09PHxX7/oWbAx+lSKX6MzpXyJnLtmDRpYnEGkJ+B0znoKDB1Ztrc07m9s1NEtQwS7jpERwApQivxhVmBP0Mq4Ewdxs3SQHV1/tAhAQEy+2iXfIUxQ7ICBLLyvSzv1JRDp+Zi5mISAex/D/Kk4QcFggJ7ocBf/MVn0iMPP5SWLlqUamWWP3jwkLRTrAnSz+j3K1eu0L5Fn4aRNzYOUJDvY4GPB9wDAPyeMI57nN+7j0SBOgAEK1euVJO8Tz31jJx8ODEde+z0NFqkD505dgZ8/vPXpHvuvF0f+3JAPi2TgscffTidfe75hfpdimhLidRrUkWWIxnfdon9/rekd7/7nale2hWueykQQKB76fu6Sj/6qCPFklWTbAvaKMw5sylAYXQWjAGZMyDATN87M0sDRSdmgplF2NKASQo8XUcHgwSze8SHAAw7UyDLLbN6mLkMJjgGFZzn15vCnzyiB3hwj9/czHanLYLq+/5RqfnfG+GgQHdSAKnA6WeclZYsXKgGhjiVkDV2GDi7BbgAAEgM6ft+0Uf9yjP/fJh2OxAg7OkJlzv6Mf33d7/7XXr22WfTWWedmc479+ySZItFevCpT34yzZszp6gPUJKgcMO4sUqkFw/c99t00ZveorFIDwEADgJsp0DSSVDsDOiMit0XF0Cg+2j7ukumc771rW9JN910U6dlAAaqqkxfAEZfW5uZAa6d+Jb06b+8RPUHdCmguM5v64QUaJ0PAGAgw6UD7e1N6W3Xfi9dLACByUO11NEqwIJODGPH3xMQcADgPqI92tc0ZlSnvyMigwJBgc4pwCmDOPpqg2wppC8zY+eqqUH8n5kNZ7yAudM382G/pxzvtzwn3NlFurwjLX0ZH+neo48+JoBkS2J3A27pa8vSRz784bR4wQJtVz5vZ+FqaeNGOTHx2ZlPpzPOPFt+W5WWKz9RnEk7OQxo6tRpsT2wMwJ2Y1wAgW4k7oEUfaFYGrv77nu6tBqG+IxBAgU+Zt7uiHNHJ8ZZunIgYGCCAaajg0GE2QRSAWb+DCg2qBC2QSMbTLTQ3B/Kt2UBW4ogjAgTi2ennnqyaj3nkkcwKBAU2AsFxo4dm46aMiUNERO4AwYO0l03MH/6K0yfi3Ce8RP2iz7rYfed+TtooAke5+HyZvHc60IKsUCY/o//56cqlfjZz36ali5evEcQ4NuZdYyQyQQOScdmWU7AjPKIkSPT8OEjBBC0pHHjJsiWwz9Mx8kyRLiepUAAgZ6l9z7XhlLNSSedlB6WtUKfuZdnhuEy4+Y5HRamjbOwKflphPxhMHBHp+SydFnYBgibAYDWTfIAEMjK9LLzZZGO8pAa2IVm83ZZWzxCTvyKTu20Cj8osC8U+OGPfpxul/33I0eNlu2D9UUpAIwf6V8eDNBnndG7Tx/1MD73fnl62uFxnYXz7cyPFyxLzJkzW5UZawAluXEln4ewgwANF0CAp0EywAUowE2ZNi19//rv+ePwe5gCGXfo4Yqjur1T4JRTTlbGitisK+dgwJXz3M+YsukJcM+zfLzFwbwtnudIEcz2gPmETdTvuwFMmQeJBEY+KMPSWPkAE7d+iNZxuKBAUGDfKfD0M8+mr/3ff9EMKApmp4WaxA7Q70zeGXne95o8jnsHA/jueO7On+fz+DN84kmDRAClv9tu/XkCBFTnysinJ5wHAega7c29/wMf2luSeN6NFAiJQDcS90CLxv74WWednR5//DHdG9xVeTDjXbt2KkOHmWMoBOYN+ucZHZh4ZhIezzMuY/JtxcGCOO/4LA+wZOADRHm/FyGA5vctgywHUA/+4MGDVCLQVZsjPigQFMgosHXrNt1+94tbb0mTjzqqsBRAHzXxvwMA+qBd2azf+yelwbCd4efjPew+aQk7COAe58/x3SERIN2yZcvSvb+9W00Zv15JgJfp/vTjjkvXfOGL6eyzzvCo8HuBAgEEeoHo+1PlRz78QTES8prsF16ug0JneemoqAOgK4CEAAeThqnzDOdMH8bv24QcHAAQ8ml8IPFBwgaebDZBWivXdQNMXwEAwIwB3QBOU+snACRcUCAosGcKsP3uYx/9WJo/b16aIFv1+sm5AywJ5JcAHJQbMDCwnmfaztSpKR/2Pozv/dqZvOcvz5NvLWlox4MPPpDuueN2lQTsCwjQMUkmIXtyI0eNStd///uiTDx6T8niWQ9QIIBADxD5QKqAgX/iEx9LX/7yV/ZYDB2PTouYHsUbwjB87+wAgLwjvQ8MxJOOOAcMVpbpCxCWuX8+exFgkAepAxfLApg+HTBgQJosJkvDBQWCAnunwD/907+mBa++mkY3NQnTlS2BIgWgHzrzxqcPen8lXH7tqRbrv7unyMd3FqY+bArcd+89adZLL+2TUiC1YJGUcaErx8FKn/rTyFZ8VQAAQABJREFUPxcbAVcFCOiKSD0cH0Cghwn+eqobJxrEF198cbr99tsLnTET2+XLo/PB75npO4P2NX5n8KB7Z9x0dL/3wYZ7HPdcHs4PFMQBLKw+sxlAmZg+PU2OUj3zjFN1oNLM8ScoEBTokgLY5f/Nbb9Io0aP1iU81wnw/mj9DhDgUgArivh8n/T78jhS+zMP43vf9nA+H3E4tv/+6PvfS1vFloCPC/ak9G9eH4AxgWtPDhDwJ5/+4z0liWc9TIEAAj1M8Ndb3VXvvEJmCbXpF7+4VdcPpXt3WpQBgExkjyIgynt0ZHYi1NWZyBGwwGAAQMjPPkjnA0fpYFRaHUCAyyUBO+To1ONkve+iC88vTRh3QYGgQKcUAAT8uygGskWQfqd6ANIfOazH+yD9vJRJc2/MvdNCC5FZ/q5TdZbG66Lvc4YB5x0gWezKlYMApAF7cmecfU56//uv3lOSeNYLFAgg0AtEf71VXnH5pXpa2PXXf3+vRQAI0Oq3UwUJt8hVp3EMOlzlIIDOb9sRs4GIuHJH2Q4CABSAgJGyH/i880qtjpXni/ugQFDAKPCb2+9SEMBZAojK0Qmgr3HRL3EwZXQDLKxeARSUTgLKGbozc8uRz7d7OJ/Gw+Rnm+C8uWItUMaJrlweBOxtZ8Ax06en//vVr6YZ4se5I11RtPfiu37LvdemqHkPFDhNDPQsWfJWlQxwXLGZCe46g+3xZ83OTh5DQuCmSRlwHBDYoJMNQgxI5QOMi/wAAYQBDdu2bRVzyGPSpz/1ia4bEU+CAkGBEgrcKlvwmGkDBPANBIjxHlkCwHnfM19jCiBAHxf/8Hx/HXXh8nX4vfs8axN9o662CDoI0EnBXqQAlHntl76cTjzheILhKpACAQQq8KXsrUlm4rMj3XPPb3Wm39kphfkybAZPjK3dlRoAsmUD356EqL8zEKC5hflbWXao0JYtm8Ua2Pj0vveFqC9P7wgHBfZEgfkLFqb777lbQUCtgHFM7xoQ2F36Rjmvh9nvqX6elfdxBwU8s7CMFgL4O3P7CwL+8q//NrYHdkbICooLIFBBL2Nfm9Ig24vQGbjoojekX//6DrU+yMxeunCXRcDAcSwXyPmF4rdKh2dAYBAyZSQfjGyQILWVx8BAfkCCLTG0qlnQD3zgA4Lyj1OpAqnDBQWCAnumwBNPPp2+9rV/U2aLfQ8FAXREvyR7nilTmvfdzkrmmV/k8/TlcZ7X03gd+PR3d/6cceKoo49Js19+udi/HQB4HXvTB2Ab5Je+8k/p995zlRcffoVSIIBAhb6YfWkWZ3R/8APvVXv+1133Hd3Dj3RgTwOHl2sDBdr/AAIGA1PyMe1kT8VzlgCaVSeAgWvChCNUu/kTckY42wTDBQWCAvtGgfUbNqQPXP0H2j/VPK+AdwXfSAT0JFAHAeZ3XeqetfK7zpeUqTORcCCQT0tcfuw49thj0x2/vq3ESiDp97Y9kDSjxoxJ7/n9q6U+W+ogLlzlUiCAQOW+m31u2XHHzkgf/vAfphtv/Glat26NHPLTKHltdrAvhdD5XQoIMGALE+v/6AI0NPRPRx55VJo8eXKaMWN6GiVnko8ZPUoHkn0pO9IEBYICRoGZM58rMlrW3vUq6OLsL43yDJu8BuzzAKE6NR5xfDppwqg0/rhpaWxDfjzYmdYuWprWrluR5i3fCuqghGITEB6iSzRMjkNmW+PqlStVcuEJyuv2ePcBAX/w3venoTJReU1OKFy1eo2OGf48/MqjQJW81OwLqLz2RYv2gwLs+33xpVfSzJnPqmGfTZs2pvVysAfOxP2ZCDArNnv9AIhBgwbpaYEwfg4NmjLl6DSgsb8uKaA8tGnTZpEI1KWxYvzExYhZWREKCgQFuqLAX/3159LP5cQ+HAqCnL6H+HyAHDncrx/WBOvEGme/VN+PLb525DD9lm3D9DkUg32nT96nH3KPX13dL42ecWY695xT0pRh+zDPa9mQFr44K83f0Fzsz7AE7I9gqfTZZ59Nt0ibt2/fru3e23IAhwddceVVusXZbYtMmjRJljIvL5avBcWfiqLAPnwpFdXeaMweKIDI74zTT9XLkz362BPpkUceVWCwatUKHUz8GXoFiPs5BnTw4MHpKLFxPlpm++xGYPvQ8GFD9cyAFhkQAAFICDAbvFPMCIcLCgQF9p0C6OS88vKLJRlg3F2BaZixXZaF6ZokF2fAPXvup4jybGCa/NZ3p3edOCJ1BvlJsZurG5aOPPWMNHzRnDRr5XYtnTbR1zEXfs45Z+u48KMfXK/WD3fLn4s4+/wL0pve9GYFJaaDVKXjy+zZs9OKlWckDKOFq0wKBBCozPdy0Fp13rlnJ64NYvp3+fIVaf78hXKMqOwPlhkE0gK2/wEGABEsB3AxAAAS2grrBQxAPmih3MQghPShv2x9ChcUCArsnQKvzJqd5km/c0c/cufbcbmnb6GXw2PC7khDHyQqDwKy8KB07Dvfly6fOtCzyGL+hjT/uflp+bLZ6ZWVu7SfI/EbOnpymjz5iDR+wojUX8FFXRoyeVqaUb0wLdlsJwUiEaBsGPqIESPSH33ik+mJJx4XMPNSejX3O6isUXSFrnzXe9SgGOeNIAmwthpIYVIxd+78AALZm6m4UACBinsl3dMgFAu50CdIYpgI9+RTz6T//u8blPHD2OnEdHw6MpceYiQ+oIFjh/lHB0esuV2MCAUQ6J53FaUeWhSAid90081pb0Z3/Fc7c+c+C7uEwHx54snFF32AGRemtxRBQHvasWxmuuP2p9NrO+3AMYB9Ecy3bkqrlu5MWzdvSZOOmZiG1SM/EDAwvikNb12bdop+EWCEPs+kgDGBPn/uueeJYvJp6cknn0iLFy3U+idOOjKdfPLJKkVkEkF78yCARORdvHixhMLqqBKtAv8EEKjAl9JTTcI40c9+dpPuCqDDAwTozJghBgiwVRDzxA39G2xXgWwsYM2yTgaV5l3NPdXMqCco0KcpAEO9TQwI5Z3v0Ydx4oS9my/3xTh9xj37+U0SlwGDDCR0NM5IF7/1mGTyOQEBSx9JN93yXFonAAEQ7+UBSGDqLoHoaNmc1i5bk+onjkkDEFDUDEwjh21Pq7fZMiDHmTObtxm+nWECoLjwwotSxxsu1HIpm+depv6ITv5skhMWm2VsqRdQEK7yKLDPS0mV1/Ro0YFSgE7NrB5m7yDAJAImFWAvcatoD5t2s61nqs0BJASFZYMDbUPkDwoc6hR4RpR3XdnOfyvnCcBEYaCqgAcAICxM35h9dqiXpwMQ2DNbPtC8ghEGHntiOqZ/YShvX5Ye/81zaXWbAYo8g2amzv2OHTt1aQ/wv3Pb+rRsjekGIFmo718vkMOWApnJs2TIhTKjz/QZK/xi4mDtsLbx+7yN+O5Iv2zZCr8Nv8IoEBKBCnshPd0cEP/WrVtUEkBnBQgYGMgtD0iHZk3TBwJ8TweYCBcUCAp0TYFnn33OmH0uCcwfAz3KRN0XcbwzUUTzOO4Ji1d85mkkRuKGiP3+poJyYHva9uKTaSbr/AWg4Wnd9yaY2L9ZpH+7Utu6lWl59cBU375DdIl2papCn2Y8wNHf5b86LwffXR5s+HN/lvc5nTRcZVIgJAKV+V56rFVDZAuTM3UDAgYADOW3KUAgrIZPCkZPzBJhdVq/YWOPtTMqCgr0VQps3Sp79TtxvhUvz1SVkUp/w2XxBhDyRRjDlTSDpqQZE+oLj7akebOWiyaPOUtjeenjzN4d5Bvzbte4lh0b06ply9OyVZvTTknj6dARYkwANLjzMv2ecspdeRqes3ywevXq8qRxXyEUiOlchbyI3mrGCXIQyIsvvqAaxa4nsGtXnQwGJhlgUEAfgCUEwIBYJ9YZAhbDfCDrrbZHvUGBvkCBefPm7tZMpAEwTBQIVTogDBVmiTEvZ6QwWZfCsSzQ3s7M3DTyied5jZz6Odync+2b0pq1zZIfi6AG3r0Ml+JxUihh+jX1eDoke+gTqA6QHFcuvVzToESsY4CAAm8XPs7v82F/5nH4OOpct269ApGQIhpNKulvAIFKehu90JYxYgUMAACjB/1zsZ0QRUFmAswgdklcP1Ec8iNRaSZGTnhGx6eThwsKBAV2pwB9ZOuWLbs9cOZfXB4Qxs2WvbY2YcY1JpUDFBjzNy3+qirW4Q0A0OfodlWNAwpKglLFjvVpzVaWHMzAkPdNZ874gA1n7tq3dzUUAQBAAIAPo8Z4EeCDMYA8pMUHOHh5/CgPE+/3xHHl0wIwFixYoKAigICSqqL+BBCoqNfR840ZP26sWBMcXOjoJj6kwzMA0JF9IGDgssHH7JETZqZAGgaQcEGBoMDuFNi2bXt6/tmZuz+QGPpZbYFhKjCQfuRM1H36F0zU70t9YcSF3QZawc7taasoCYp2r/ZLz2f92OwC0G8pg7oB/TjScQECOGsEK4buJGkJQyevu9K2ZPE87+yZShxirHDyVZQfQKCiXkfPN2bw4EHpxBNPlL3Bjwtjt90DoP/85aJBpALuGDgYVDbLbAf7BOGCAkGB3SlAH8kbD/IUMEpl0NLX8FtzoIDdA1yAcPgmz212joidfufLBCYp8DIlERxY0+dBAGErw5g1bXLwTry2sQAGSLtzpykG5/PQXpcIeH3O7PP3hD2e/H4Rj67EK6/MTqecfCK34SqIAr66VEFNiqb0JAUYBM455yzZImRLA4gNXVeA7YN0foAAywO4Gpkx4CSbihC3bt2mHV8j409QICiwzxRACkD/cj0BY7QmfncGyo4BD+v8v7iF0MBBYXOB1TlsRBpZbaJ7Bxo8cMaM7/0ZaQBgn76Nz70B/mbt/4wB3GvfZ5thQVfA24JPee48jM8z6sk74ilzzZo1+egIVwgFQiJQIS+iN5sxdeoxajjEpQB0/mxQKqwPymDBLAXgwIVjVuHixd5sf9QdFOiLFMAWR41czpCRHDAjRzxfXSP2OySMQzcH5uqO/uc8uHnF6rQ+HZtG8bCqIfXvJ8xe9AT0ttBPKQdGjO991xk591ZntfZ5v/f85emd4Xs86Yjzy8vl3gGBjSUOUMgRrtIoEBKBSnsjvdAerH2dffY5wtTNuqDPDgwYGBDAKpiJKrPBxMWLaCKHCwoEBfaPAioRKCwNwDRVTwCfA76QFGDvX+5dXydjriYN0PtVK8V4UKHe6iFp1MhaZcrlDJkUHuc+DNqujlTXNC2ddurUNKbWJIBMBhyg4HuePMMnzuPxKSv/3MPUrW2VNPjhKo8CAQQq7530eIuYEZwrBxOxE6ClxUSDJhbMLAy6lEBnLQV7AswK2GEQpxH2+CuLCg8RCsBkdcYsTFSZaoFZmhEhm1U7Q3Wmi76AMVaZibcsSfOX+mmgQ9L048bD8YsMOZ8XklGG+9mzgemYM89Op59+QbryIx9OVx4/SNPZRCAzMJbVny1XOJjwcimbct3P6sjapA/jT0VRIIBARb2O3mvM2KYxenCIzwKM8ftMwNA+MxQXI9JSJI81AiJQMgwXFAgK7D8FYJQtvj4va+i+dk9fQ3cAE9+qQyAMHGbrl4IHJAfta9Jzzy8rGBGqTgNPfXN6U1OdgYtcevL5jN3yWlmE04ST0xnjCkaJ2lenV+duLObPM3LS+uXt6Op5vg5P2ya/hfThKo8CAQQq7530SovY29vU1KRMncHIlgdQJnKpAApFLXruAPubkQZwISFAkYjOHi4oEBQopQCMDzH/nlxx5i3pFIAjJVBJgTBvfECBPHNm7r4tGbSljQ/fl57aUuh/1ePSBe8+P42tyrT8y5m131NmR1VTOvvCaalRGyjnECx4Jc3eYgw7Y+AZAHAgUO6TVn9rGfjwtuKblLFlT6SIZ71EgQACvUT4Sqx2ypQpu+kJ0OHzuwcA9PnlASQEOAaBcEGBoEApBQYMaEwnydG9e3L0HfqZ6wgADJSB6oy/VAwvPS0HuglLvtY56Y7bXkpuyb96zPnpwx99UzpqgCkZOpP2Pso9V2qcnM7//cvT2SMLdgPa16YXnpiXtpYxc/J53s5+hz/P1+Nx7vP7Bg4cJMcYn9xZERHXyxSIXQO9/AIqqfomWR5A8Y+Txnz7EOI8Q/+m3YzFwdrauqL2McsDgIE1a9elpjGjK+nnRFuCAr1OASRtAwcN2ms7YP70oxpJr/1N7l0Zt7pVGLro7+AA5ZKkxFVVtaRNz9yWbj1xcvrACYPlWXVqnPSG9JG/OTUtfuY52bv/THpy4bZin60Zc1y64PjpacZZU9OI4lRwW1r6wN3p0VXNuszguwJc8pev0J8R5wDBGb7fOyhw0MFvwo0YPkz9+FNZFCj7pCqrcdGanqXAOLEyyGDEsgBAAJE/ywF0YgYqWzIwIMDygIxJOrjUyciEsZD2USM1f8+2OmoLClQ2BZqaxu61gbpLQPpYq2jrN0sfpB8ieauR2Xi1KOeiK0AY54zYfYmRuHXp6R9enwZ++o/SO4924DEwTRIFQK5L9tgCAQGP35F++cyqhOCeup2hex3ud1aMp82DAQcCPnawLDBx4kTdptxZGRHXuxQIINC79K+o2mHozEIyKYCtDTILqa9HfCnrfDJYcWY6gwWDA52fs9W5xzpavfjhggJBgYwCY8fuHQjQj7AroIyzALxhnrgaOXvA9Qyq2qpSG2I4dWb2m+UB6ZYCFBan+7/x9bTyze9M73rHiWn0vnTFHa+lmXffne55Za3oC5jeD0wctyfmrwkKf2i75yHKpQBZGHPGuxQIuJSjkDW8CqFAAIEKeRGV0Iyhw4YqYmd5wKUCtl5pEgEGKTScmbUgwnQg4KCAUwqxSRAuKBAUyCgwadKk7GYPIZg9/UtBNdIAuXDcY2TIJQJeBP2PPomzMGv569Kse3+U/vnB8en0i09JY4ccmc4+c3JBGdBzbk1Lnn0hLV69MD319OK0vQAAKIPLy8vfe05/5veAABx+/nIwwPjBxbPhsSzgZKs4P4BAxb2S3msQTPyEE05MDz/8oGr42s4BMyxCx1YgIJ0aqUCtpEVkKWpHOnhgT8AHpd77BVFzUKDyKDBp0sR9ahTMEqZZDdAGCBSUAdiiy31Hh5v3FoZdkAwU+Lb2wYyJCzhoXZaeuWO5xFenO252i4UwespCVGBMH5CBczDvzJ+2eHk893jCPHNH2O/d97HCfSSKhMeEDpGTreL8mmvFVVyrokG9QgE6+3aRBrzwwoupThg95w8MEkUnlAcxNgSz5yLcIAcQtRdOKKSxhC1PdjBRr/yIqDQoUGEUGDVyRFompoBnvfzSPrUMyQDLbcJ91bIgPvfKaOH8woeF/Qor12CRYTsjxs/x6kIqGLiJ/P25+aWM3ONoKGH3Pb7ch8FzEe9hwAyTAp04CKjBSBnAY/DgIWmtKBVz5PmARtuwqBXEn16nwL6sIvV6I6MBPUeBM844LU2ZcowoC5otAd894CI+3wuM6dO8PQFmL5ghDhcUCAqUUoDZ9plnnlkauYc7mCr9jiU472/43OulRoZkuU59E73rNsKcvQHTG7CZOLo9pvdjO3/sPrNNAAN3xt2ZX87oneF7Ws/vY4TFGxhglxEKx4MHD04bN25Ms2bNTj/72c3pkUcf3wMF4lFPUyCAQE9TvMLrY3lg+vTpiuJLBqECyqez66Ak4r5yewKG/Cv8B0bzggK9QIErr7wsDRsxYp9rBmjTz5Sp0vfkQhmXe91h4D52BDQ+m5VrGp2lw/gBA3YGgPuZiWKbzRuIcBPAFpeVYTN9bUehfg+XAwLKtTjaSdh8xoV+/UxSaFLDhvS73z2f7rjznuKppvtMmEjYLRQIHYFuIWvfLhSjH3fddZd0Zp9t2IzBOrkZP2EwqO9XXxRLIrFk0AkXFAgK7E4BAPZRYrBr5rp1uz/sJAapAEDAT/zUrYTS59zxvHwNv73ddAlswcBE+9XViPdN/I9kQrLpvSzmaX4vp0osEcLI0SHIl2vLCb4I4bVnPuVRhl/lQIDdAvyOUaNGKYihbLWtMHBgeu2110Q6cEuaPHlSOvbY6WJjYHhWcIR6lAIBBHqU3H2jsvFiT2DkyJFp27ZtBVsCzbr+j7lhJAKI+lgGaJR/tbU1mm7rtu1p+fIVafPmLen442b0jR8arQwK9CAF3vKWt6WZTz65zzXqLgKZ2eNgoCy/KaMVQNAuwMKYb73EGSOukZ0FAIeODrYBM5O3bb2maGgzexh9RwfMngsm7sqCNZIeBUIDCF6nVQ8Q6MxRbx4IMGHwSYNJL7Zv357Gjx8v7akxRUgBI66YiL4Rv2fOnLl6TZs2NZ104gmyjOB2EDqrM+K6gwIBBLqDqn28TDoqQGDjxg26jZDdA4j2mB1wNjrXOpnZrFq1Wq9ly5Yp2mfb4ZFHHplmTJ+qHb+PkyGaHxQ4qBQ4//xz07/uZ4kwe5YEAOC4auHerdI/AQZICbAqiFOmLsy/eCMBeSyM1qL4q3mE7yNYgOGzJdGkAJYGcICjf0sKTU8eJAqdOQMiVoGBkfzSgLWZNBhUQueBZQF3Dga4BxAgYWS54JVXZqULLjg/HTtjmicNvwcoELsGeoDIfbGKdes3pNmzZ+vOAdA8HRnGv2DBQkXvr722TKQFotDE+qV0YgYMrtWrVwsQmK67Cvri7442BwW6iwIjRgxPGzdvSy/87rn9qgJm2i4XPi7PmnV3QSHWnheYtqa32TqMvJBVU5LOLtMLgNfDyC2d7yyAqXu63X1bAnA9APQQLMzyoOsRMYEYKEsAQ4cO1edZvdZG7g1oGEhhssH9okWL0+o1a3UJYZDkBzSE614KBBDoXvr22dJ3SSe+7Ze/TLNfeTnNmztHOubqtH37Du2odGDW+QYMGCAMv6EIBvixLCfskqWDKUcf1Wd/ezQ8KNAdFIDJnXveOen+Bx9Ma1at2q8qTOSfMVDPrMzUb4oMXxg3s/gC97dcJPLlAaAEj7PyLGj3AIAMBPgsv9RHksAyAD7l+ISASQE6AUwcdmzflprGjivWRToHEPn682AAps/Ygsnyl19+Ja1YuVIkCmNSfxlnwnUfBQJqdR9t+3TJY8eOSfPmzE4rly/X2Qgd2Dq/oX86O4gfl0fsjbI/eOHChSol6NMEiMYHBbqBAigNfvOb30zjJkzY79LRGWgWBkvfwwIh/Y8Lpss98WzX06PDdZcBxr8KWw651x0E7CQgnen7ZAw8u8/HwdjLr3xebYvUi2Kxha1NgADatWvXTjnIbLseZmb3u4ptpu1eFnU4MIEwgAO2HK4RycAvf/nrNH/BQgUR+020yLBPFAgdgX0i0+GXaIh0wpNPOz09+dijguy3p12yDGADjVgVFMROx6Ujs0WIe0f1LCNs2bJFOzBIPlxQIChQSoGVK1eloaIhv1y05vfXwSx3yWFggAID5ya2p5xqYe4oEdbWAdprU7XM2LH10V5js3b6qO4+QHkgtekzwD1KhTzLX5Tn94TzjjY402YcwLmdArY5oiC4dctm/Y2MBQATxP4wffQEGC/QC2CsID/3XF4m8dSN83yPP/6khvv3b0hDhwzRvJog/hwUCgQQOChkPPQKoWOef/4F6fGHH9KBB2TPTIKOa/uDDQiwg4DOjVTALzryho2bVKR36FEmflFQ4PVT4L++9Z303W//Vzrh5FP0eOKtwihfjwOUu94AoIClA3YVOJPGr66WvsoOAtb/5V64q5xXIIxf0gMIABLWZ1mrN8Yvf4sAwJlxefuyOgxg6E4BYfI2OdilSsZbNm/WiQPAYMDAQcUlRAAA44UDAMK+XGBtNguKtMsBgQMGngMqVoqu0ig56RTpSk87jlvHLVmyVGmXN9dM/IQJ4xJS0X7yO/uSCyDQl95WD7d1QkF86eI/N05ixkIygyf19QYEaB6DByh+zZo1unugh5sc1QUFKpYC/+8/vpnuuftOkbSdJqa7h6SLL71MxeZPP/nEfusM8CNhsruEOeI7U28TBsTMu1aAAsAAQK+MtL0OFq9hZV6t7P4R8C47BfCV6Uvf9XBXIIB6YcgqjRAgoRMDARdYPERCiO7DJrEgSBu2ChhAIjBElAUxLzxIpIyMDZgsxwcEoGOEz0Ue2spFuymbMG2hXTjGmra2mrR+3XoFNugOwHjr6g4uK1sr5W/YsFHBDAaRNm3arG1gDKQNtIs6W1vRl0LCYgBq2bIVhd9Qre3id5Be21h4F/pDKuzPwaVehf24aM6BUeD444/VwYS1vW3SoZEKAApqaw3RE2bLIOI677B0WsJsLwwXFAgKGAV+edtv0r333pOOmDhJGEM/tbcPE4RBXHrZFemXt96SNq4X5rafTvUGhGFyhDFMBwZdCwMVxsnBYDBYtz8AM21rE8Yv/RMAYH21sCxQAAPKdAvbCLtqSlvBUiFSCCSCLC+wfLhu7dr0l3/1N+l/f3pjmvXSSzpW8Js2b9qkuwdGilGhxgEDVcm4v/xupAMwWegBMODegYv7tJ92M6a4A8jU1NiMe6eMTZsEcEDLEXK6YT6dp98ff8uWrekVMYP86qvztc20ifGNdtAmAy6y7MJpkNIOtlwCBKBbdhloQXrBGIni46pVayRPVZowfpz+/v1pU0+kDSDQE1Tuo3WMFvHbqNGj06oVK8ywkJw/AGrnYsDBZxaAhIBO4h2Bzrh69ZpEJ22QDh4uKHA4U4DZ5M0335RGjBBxtjA9mAt9hP6CD5N5w0VvTLf9/JbXTSakAszUi07KbJe+SVydXPiAA0BArYRZ2aduTjSkHdXVtm0QptsuV1cO5q/SAKmKsw5QUqTuNbJt+FN/+ufpgx94r9gBOC/98z//S/rtnXdoMYAVlgpwA0W/AX0C2sOMn7rz7VYgI2MJcX7RTgMDABmzZUI+HLNynmPBkCUDjKG9XjdPmP+TTz6t7RouOhwcrEbZjG0OTKwtBgJ8zKNtXCYVMOVpbx9tIQ/vmN+2SsbF0aOEDgMHvN5mdku+2D7YLWQ9NArl4338iafSwvnzdQAZMlTEe4MGKwJG3MVzBjW2EdIpAAXeqUHCp5xyksYfGtSIXxEU2H8KbJTZ8L/+67/pbHm4nDWAWJx+wwyYPmMMJKmGfIPMkpcve81OHNz/qrTvwZSRDrRJ/6MvKtOWe8IA9yIjJ43Gw9htZwBpieMkUZh0/vIJAOXTt5nJ7xRp4GZZBtiwYUP640//afr0pz6hrR4q48Tll70jnX3u+WmLWBydP2+exjM+oEhIPsrQ9hQAAQyeNlInvredjKRtamqS9ffxEk86VgUMrMBwuWC2MOKtMqPfIYrNzsC14r384R3d/8DDah+F98KJq4AA3hPvCJ+LMq1c8wkbCHCgYvEWJ20qAAQDYCY5oI1bREKwTejAb6SeSnABBCrhLVRwG2bNnptmPv2UKiZhHIR1PjpAXZ0p/RBGXMbRonR0HXjkA8fHgErYD6/glxtN61YKPPTwo+lL135JReMjxFJn//6NBQZjEoGMkRhTGzOmSbYVHqFggG2Cr9fB7GGoMFpm4woM8OVe4+Q5zNXTsL6vTF+eaxo9Y8S2ItpWQ9uuyOxftwDKrB57IRsFALD74W8//3fpQx98/27NRQx+2TsuVUCwq6UtzZ09S4EIZSAuR1FSx4yCAmM7uga0gbYKMHCAwthyopgeZvYvTS+AAQMEPgs3MCBLBiqmT6KbsFUNnpn0pWsJx/MvvJgeeeQxBSjUw0UerjwQABDwvlgG8DD3ABJbqnBQYAAAQ0/+ft1nOQGQUCdlCR4QGgooElpSpwPC3YjYQxEBBHqI0H21GvQBfi5iTdBrP2H4g4cMLQECfMCgaECCd2I6JQMNcROP2P/90n2VVtHuoIBTgFnm5z/3OR3whw83EABzoT/BGIyJ2GyWPDobFwbIbHSC6BHMf3WeMmUv7/X6RWAuZRMGGNCXbeZvcQ4CeK59uAAYCPsF84ZpA1DQB+DCFsKPf/zjdMbpp+2xeQCCC84/P23eui29+PzzmpY2AEDYCgnAEBmASB0R/RfaKW2RJMr0zz33XJWYAA4kplgX4wyghxjCXDh86Auo2SqAxei++yr4/Q88lO677wF9jq4G6VxSA7OH6VOOMX5n7C4NMP0A1v1Jg0/1qnuRAwEWz9KLX5JPnmsbxd/Jcqv85gEDGrXtvfUngEBvUb6P1Evn/MmNN+qAUCcdZfCQwSoNoNOw3kknIUxHonMDAHCEUSScPm2adJSuEXkfIUM0MyiwzxQABPzLv3xVv/9hw0aUzDLpL4BnGIHPAp1Z02dgtsRXCxNaIWd4HAznEgKbaZtkgLADd2f2MCT6L/f4tAXfmTU+M1iucy+4IP35Zz6bjtvHA8YYI970xovSlVe9K40c3aTWSlkmoB0sFTBWAAyoz+iRtP4jjpgoSwITVBLh8SwP4JxuhBUQ6JKBgQFl0EJDaLlt21YVxzN7px3Q+af/e3OaO3eemj9m7AIA8Mx0DmTWLtIHf1cwemP2Nvt3KYC/Q3ufYD55pwoK0Bkwxk+a8qv4TNrGsgG6VFsFJAE8kEL0hgsg0BtU70N1IgV44IEHVWGQD37I0GHaYfJKT3y8iLfoLHRkd2wdmjxpokoGPC78oMChTIFFi5ekzwiD5MCuEaITwHIADIbLZpaunGfgGKaEw3eGzOwbxgSjdCW7g0Uz6oGB6hKA9FVn/n6vFgoBAHIx+/elAHz6Nukue+dV6Vv/9Z9pkvTt/XXoD5x5xunp8iuuSIOGDEtPPv6YFgEI4PdukyUD6gIcDBTpyEknnVyUEiANoO1m/jg7H8EBATPyDj0fAYU9Y8D4xtBr0naxcNgi7X/55Vnp6aefURBguwBM18mWAjKJjQOATPSfAQIHAwraYPoCMpjpc2+7CRyQGOhT0ECaMmDARIuyeC8bxfYKUlTq7WkXQKCnKd7H6uOjXLtuY3r80UcU7Q4Wq14Maig9+eBGBwJV4zNY8FFzAQTqJR1gIFxQ4FCnAPo0X7jmGmVoo0eLfXwFASia2XqzzRyzGSIMDKeMWWbGbqYXRshWvKHDhqffv/q9aSca8WLquzuc99WsDbTDLmWwhTZS98Qjj0xXXPXu9Pd/93nt+wfSHhjeWWedkSZOPirtkm12ixcu0Fk9gABARF0zZhyn9Xh7AAI4gABhb7uF5W9RIsAzlggMbDnzZSzDDoBNWmrlyPTNChJMGoBiICAAZu7if5MoZEDApDjK1AtM38tWvxDHe8YVn6mswN67xnMPaik4byf5aN8AGUt72lUJMY26PV1z1NdnKLBixcr09re9TcV348aPTyg+jRw1Og0RfQF2DHBxbDGnjCE2BAwwiBDmg//oRz6kHa7P/OBoaFBgPynAcsAXv/hllQTYYVymeOZSAJgQfcGZBMOuMlrx86J4bHVsEfO8o0aNSZ/73F+nYdKn2HJ2880/T88992x6rGDpcz+bd0DJp86YkS67/Mr0/vdfreZ9D6iwLjLf9qvb5UyBX6QN69cpAGIsqampVaZt9GyQ8WaI3sPIGxv7K8Bi9xITEkT5Brhs6QW6I2qHqROG7+aZL2Bik7wzjAax1RmwgQa/vy+f5PC+rCzKRR8ApUHXFzAJAEdDF9f95T2TDkdeeVKsN1+/s10UJPkOaI+PmUyqhsoSLPX2lAuJQE9Rug/Xg0GNNes2pOdlIGLW3yAdsUHikAp4JyEelM8HTqdyh3bwUUceKUpQAz0q/KDAIUUBlgP+9E//TMXZvkXQ15ydsZSDAAcC9BWAAOvxgAD6y8svPJ/+7pq/F0naJKXTQAHaiNOvuOLyNP3YE9Lz8hzrfd3tjpoyJf3dF76YvvKVL2v9iNG7y02bdky6Un7f8SecKIeWLRJAtVHGElNe3CUKddgJgFbGNLPtjUxjbXcByoUmCcgkBtZa9Acwx8zM25kxvp5bIEsVw8UQEbsgKNsBm783mLlf/g5h9MrkAQC5qzzOjTbRiny9nkfjBSjwH0d+hB4oODKZYjztKddzkKOnflHUc9ApQKcYJVbBcHygXL69h87qgxkdkY7EB02n8o6zQTr12LFNB71dUWBQoLcpcMed96Trvv0tWQKrV0mZ2wkAGHtfyA/89Auc9xl8AADKcuzHZ9b7zW99O50k2+U6c29+04XprDN/lV6SI3pnznxWLODNS0uXLkkLZK/+gYADdgA0jRsn/XRcmjZtejrttFPTsTOmi7b+oM6a0W1xxx07I/3FX3xGtvQ9qtb9loldBT3aXJZLsGJIGAbJ7gokA0gdASjM4Pv3b1HdCugOEHOFP2fqAIK8Mp+/F6QLM+S3rhLzyOvXbygybf+RpNuTE/ghOgIODiwleYjvSiJAKk0DQOEf6SVM+5BM7JDftXnzlh6jfywN7OkNx7MiBbDadYksDzBzYdYzQbR5WSKgQzY2DtDOOV6WDeiUDGqkY5ADNEyYMD5d8va3FcuKQFDgUKDAE2KF7kvXfjFNnDS5wIhM+xxG5BcDPBeuHAQwy8UMLf1l5Yplagr4uuu+rcsB+0sfTjREMgE4YAmB7YdLFi7sshjW4I+ecoy2++qrr06nnnKy9OHKsnZH42fPmZu++93rxWT52oIekulbsFyACB0fYADj5x6mDuM3YIDEkqUDQJntArDlAtPWx/Qys3t/PzDiV16ZrTTLLw2k576Z3velexKHrvd7+z+mX/zNualfYcJDXjT/Kcv0CyjblP1MQvBq+tEfXJ2+9tLOlBquSt94/B/ShfWmz6AVyR++C5VmCHCwMRPLrUg/OtQksafrTj8kAt1J3UOo7KYxo9NpZ56VHrzvXh24/NwBO4jIDJTA/OmUdEQAgHYS6TBow4YLChxKFEDK9fWv/7vqysA0WJ/2mScMQMW8uR/MQI9joPfLbdHv2LFN+8pXv/rV1wUCKJcjv7nOFgU8nAMDvenkDwq8feGY8OnTpqa///vPpQdkz/8dd2CymJkz0kYxcSxLKk5LQAAOpsr7cHrX1yOB4WAg6G+XvhsZo6QANadskhvKpYTdXWfxXr6DCGP6BiqI4zJdAQkXiyTebvDz5ZLey6QspBdqvbEg8SgW0U2BAALdRNhDsVhm/3ygut9XOhEfLh3RES0dE5fvFNyjnUta7zTEhQsK9FUKAAK+8pV/1m8aUb4tB5gpWmMqthatDEd+JN++9xVjXHJqoIi6kQTskC1tLLN94YtfTJMmHnHQSOLA4KAV2IsFoTB51TuvUPH9r399e5o//1Xh4RyDjq0D6LhdJJG2TMBEBCDQ3Ix0AAmNGUUirrXVTQXb0iXAzZkuM3ofn5iJ+zvDNwDhBPBnds9z2zaIZMAsD/IN4PyZpSz9q8UWoqiXMRTIQFgvpAxSzrLlK8Qo2xG6zFFawsG9CyBwcOl5SJc2ffqMdJt8wRgWYY8xiDWPygnz8bM+is96nu8i+NF//4/G++Co5odliYE848XyGIo7Q8R8MZ0zXFCgUinwwosvpy9/6VoWeBNbBGFAiKX5bl0iQNudqdAPuBjoAQFIyriQqK1Zsyptlz7y5X/4h3TiCcdX6k+umHYhHeB69rnfpZtuulm0/Vcr7QEEO3bsVHCFLQLeBwANCSV6BIwtZveEMx7MvDPgq67OjjmG4dYiZZB/pmhoTNx/uLy+Th3v1Z0zcABFfWH8s+eyTFQUCRiTzwML/z7Izw4CHJKEjg4DAoDFNWvXpHFjX/9hSt7GPfkx6u6JOvGshAIc/IFjIGMAa8Y8Zn/Ec2aJDGUbtJ7pjHzA2Cm37TY1otC0VPPS6fjoFyxYoIMjkd4ZKH/MmDFqqITtQ0dOnqh54k9QoBIo8MKLL6U/+5M/Ud2YMU1jFQTYsoAdleuSMNrKN+7fdR4EMIOFcaEYiCTh2muvVaW8Svh9faUN6DNMPeaYtGDhovS9710vk40dOgYxDiFp4Z0wRg2WiQVggAtwAChg4sEYBBBoazNQgFJhR4cpd0IDf29FP0+YArDLR5WHfbJj8aI8vQcg4Hmpq9zJJ6S/hTMJWEaind3luq/k7mpxlNtrFBg2bKjWzUcLs28WiQCdjw8Vxk8HYNsPHY2PltkScX4xOBLGz1/+g2xf7wZR2HlFo84552xVYhoie2rDBQV6kwIsB/zoRzekI0QxEPEzTAXmAtPhe89/17TTmYiDABiQibHNnC7ShGuu+Xy37cvvTVr1RN0oNp54wnHpb/7mr9JTTz2dZs2anRYvXqSM3vWXGJNQJjSF5kYFCbw3xiaXzhBuba3XSQnbFAEQSHZ4f7w7dSVM2pcG2Ptf2PJX+MGMaXt1uTT+jagv+gv45Y4yacdWMZPMEkl3uQAC3UXZQ7DckSNHiInhoam/rL2NlR0Cw4ePKAyEGN3w9bdMY9oHR5cC+H0eBBCHI86XFJx0zz77XHpRZmGcDX7qqaeko46anBpk8A0XFOhJCixctDh9VswG14n2eZNIAmD+nYEA/5Z9gIfZEDYQIMf2ypIaYHepMKyvff3/BQg4CC9x/Lixqj+ADsFPfnpTuvPOO/T9QHOYOmAAuvvuAmf0ZmHQ7KDU17Ok2a4nFlqT/n/2zgTArqLK+yedhez7RhKyQPaNkIQk7LIqICCKuIviwqgzoo6OM9/3uTs6OjPo4IA6CsIICIgriMi+KJANCFv2fd+3zp50f+dX5513q19edzpJd9L9uqr7vqpbt25V3XPr1vnXqVOnnNnnmHPEn51X+zsuZN61AgPRcxfezyXXUWCqgvwAJkgE6tMlIFCf1C2xvF94YaqMGD0mfFQ0TjSlYfIWNtEaYRov8cUAAJ2ld5hcj53Hexx58aEgRn3wwYeC8s9FF10oI4YP9STJTxSoVwrQAd911z2yYf06GaXGbkwCYPoA3pZp784AYgZBGDDgTInNb1jrf/3HPykTxo+r13o3xcyvfscVKoU8QWbNelX1L9YHPQyW4fEeeAccvA9AHI6RNksLXS8AKafb/Y/fY9VxflWQQLojdX6v5hjq6OeeH/E42hZSVzFTLn65Tv0EBOqUnKWX2fQZL8nUqdN0ZP5qmP9HLMq8P6N3N5oCw3bGHzN/Okoa8aH8uCONw/HHSFl8xI8//oTqFyxWZaCOwehKslhYem2uIT3Rd//t+zJn9psyRje/QQud6S7auLf9uH3DWGiz+LRVRp8wH+awYTLc+/Pbfi49e3RvSI9YMnXBhgmSgauufLv87Oe/kFdeeTkweZcMlJdvDxIZ0qE/QF/mugNujpipAt4p4ID3GJyG807fL/oFlSGNGU0LWzrz7ssOvTKKbaA1ZcjbAQB5Z31dLuxl5wpmuoM2VTh4ytfrKAMJCBwlAUv59j/88U9y6y0/ClMAmBT2pTk0RqYCCgEA8YWjJD/Hx5HGO08HCMQTF/uFYT4UyuPjRPFw0aJ9skRFtldecfkxs74VKph+mgwFfn7bHbpT3Wu6i2CPMNKEaTgA8LbrfgwCCKMoa4pqe8LqGQz8fPNb304g4Bi0Ht4JK5bcpLB2HQrKbIWTgwJfvomEh10imTpo2dIAQFkZgA4dgFyfFOEAvRCuKU/Wvsz6I8De3j1mhwBAgYEh+jM7Dn7gABY1f3x3BgRMSuFticsWD3DI0vo9deknIFCX1CyhvGbMfFm+9Y2vCfbGW2kHSKPnA2MTD+/8jKHbiD+OgwzZh5CJTUmDK5aW+PgezmPnH4Tfi79Bd2j71b33y7vf/U7p2qVLnDyFEwWOigKAgDt/cZva9h+lo0amwLLlgbQ9b4e0We+48TkYuTEHDRiA4WzevCmsNEjTAUf1Sg7rZkCYOxtFs7MfCpuYR7e9UAAHHTt2CoMT718KffJwET3hvY9/Q65+nNCROECEMvtqQICXHRJp9pxnDgXtXfW2Z0sCAhmlU0gpwE5nDz74J3n00UdkwMCB2gmaQg0fk434YfzxyN/QL8SLGTnhuLP0sPue1onu8Z6Px7tPehwfh3e8iGpB+Pff/xuZNGliWGHg6ZOfKHAkFCgv3yF33f0refhPD8nQ4SPCSNG/AaRgtFNvq7RJb4u0SwMANh0AAGAb7k1qGnfM2HFy441/H1YaHEmd0j2HT4G4v4CVY0eA98j74v2hS9BDd1BFEuB9ioveDxxg8GJi/1BynY3GFSgqCNFfrQegwBg9vh8ayAEFkw5Y3ez6fl2hVV8uAYH6omwjzHfFylXyvve8J3RorJOG0TJnZlMA6AH4kQEB7xgNJFTVCeBjjDtNPycO5x+rxzvJCs89Ht8/ZPtA7KMmjCLj7t175MwzJsfJUzhR4LAo8PVvfEsWL1oQ9tJAEsC8frxEMG7P3nnTJjkApQAAJAGIpt9QvZoPfvgj8ulPffKw6pASHx0Fdus72LBhfT4Tf0+8Rxg//RnLCDnnGgCAg37H/XhqQDlzPq+jC6i0SKUS+3IKjPm8tA64UM+cgiBh2hQ+QAa9BO8vQ+I6/klAoI4J2pize+ihh0Nn1qNnT91EQ5l9mM+3EZBtznHwqJ/n9QaKX104TheH43s83oEC54XOr9kHYmXzwfBxP//8C7p72omSDBEVUi2d14YCKJgBAgDBMAraFDoB+LTTYiDAmQg+4mgUA/FZZfDNb39HLrrwLbUpOqWpQwrAbFky6C4w2DDnb2CNdwlo8/dJ/8H7YzBjQCCbviSPyggItDr/X+TOz07WTYd8mtQkpGw4hE4CftVB0WK57/qPyX/P3kNGAQhUNEdd8GBwAc+3umYSAjN8ZGbc2Y2ws1pMrA9nQ7P6yDnl2WgosEXXNt9y60/ljtt/HuYyg02AnBiURu1KN3w4zoj9I/Jzf9gYCBSL8+uF1zjnWrHrHu++p43rQD0xHPLEE0/K4iXLPPvkJwrUigI//Z/b5A+//6307NVbQUDbMFpkxAgIoJ3FbS3urGEczD0jBYD5IAlYpIqBb33bZQkE1Iry9ZPIBwrkDoNFZ4N35QfM3wEAcaTHtzi/5iL8qI6azu7FJz/SmI8UgXPaA0DDfL2W5/l2DyDAmL7VLQt73lY+5WiKkNbLiGpSp8EkEahTcja+zAAB73vv+2T+nDnSr39/7fjUHkBOGmAgAMRrqFdZdXhAY8gZ444ZNAkcHMTxhWHSEee+X/c4jw8J9Id4/7jjNNTRPhhLycd8//2/lvPPf4tMOn2C3578RIGiFEAn4KYf/Jc8+/ST0n/gIJ0KaB2kAIWrA7x90tYcCBhTsU6fjp/NbzAWdM5558sH3v/eouWlyPqnAPb+keiEtfdRcfa+DAzwHjnnvRKGadNveV+CxVR755oBnNpdpYGFitB3ARBh2vRjBiaaNyctgye7B12DDAhoWO1SHMhNjeazzOVPu/LVATY1Qb2svg44/J669hMQqGuKNrL8fvzj/5F5s2dLD7Xxb6sDbPTjIyDvAGn3cVyxxyRtdc6vuU86z9vvKbzmadz36w4IiCdMvdwnjnnAV199TcaOHZ0sEUKQ5KqlwM0/ukVenfWyro4ZkrMTYBvU1DQdQFuDicD80UtBL4B13kgFvv2d78pkVVxN7vhRAOuj3bv3UCCwNFSC92WjdXtn9CMO9Ejg0wQODBhc7N9PX8ahRs9Q7CMhTvMCNDRXnzaiXi6afjMkyPdFlAsQ8DSM7g2A5HOzm/XX0lBPOwAEDlyQBnBfWwU39eXS1EB9UbYR5PvGm7PlD7/7jXTRdbR5Mah+BGyn6UzffWfCPJaFq4rx4+vxo9c2vqZ0hdc49zj3qafXlfXedM6PPPJYXJUUThSoQoGf/PTnMm3qi9JD7f4DHtEqx1omHTzMwNsTvnfQ+HTQLv6lne3cuUOWLF6ky1jfk0BAFQo3nBNG1AYGMguDvEN/l7FvDNgkBtx3INIRYJ4fpsxh95PO42yKwK7lJAeaLmP7Bkj8/th3CYDn5eeeF3VC0lFfLgGB+qJsA893ydJl8qUvflG2qvleQACHd37GVE05ylBxNtL3Qb8zYB4zDh/pY8d5eNh9z7PwnHriiOfg3J+B51myZImwY1xyiQKFFPjxT34mP/vpj6WrgmCAI8yfgzbk7czbFZ0xzkEA53TMjCSRBKxcsVy6dOkqZ5wxqbCYdH6cKMC7KnS8N+Jtvj1j1LxLrhU7uFY1Lx+xe17xfc7ozc8z9agijPSLlWNxfr+BC7+fa17HKKs6DdYfxKjTaqbM6pICq1avli996UsyV3f566CmNhGT+QqB0Ak6t9dCvTOk/Ci64OM4/NqRb9zpWv4GOEIdQnkxAKl6jfR8oKR1nzic15n53qeeeiYg9lN1msCBg6VKv02RAmxC873v/6fMUvOz48ZPCAqmLBF0IBCDAW9btC8OY/5YqDsQAACKgRil+acv/7OcPnGCWt5s1xRJ2iCfuYsaGFuq+hooOrtzcTvvlZUd3h/4uaeL+xOYcPP9OVPDmoCROpIAbKl4OnwGIPjoC5SpqWFbZZVj+nlMoqABKUS2L7EXGe7V20P+5AMIoL1RFgegs2OH9vn0dR1IQKCuKdoI8rvvvgfkpWnTAsNk5AwI4KMIjDmnEFj9Y2TMufo02RX/WLIYCzmzxg/lqk/4cJynx+eDxcUfN2UDch599LHQSQ8ZfMrhZJ/SliAFkASgE9Bbl5liZAYQgESAduPSJG+TtCnakHXM1imzVS0dM3sHrFi+TL7xzW/JxAmnlSClGvcjYTbY+p6qzwGD1TUE+q5tpQdXed8AQGPwVaWM4f1n2n4YMjEmHdoF/WbWZ9FerP+JAYFKG/JAgHimD7J7vHbWztyIEFKGqlNQnDNtVV8ug0v1VULKt0FRYK8iy/vvvSfUyaQAxoCdqXLBGHMmIj3cB6BR1+QKO13K9vLx/bp3zDXlVdM18iIPNIiXL19RU9J0rQlQYOq0GaHtd+3WPYAAdp5zCQBtztq9tUUHlrRlF8v66GzvXjMbPGr02AQCGmi74b3W5Gy0XXUFgY/A/X3n/YyT65AdcGiMOp7H97S0G5g27SYfjrQEKoI+Adeyw0b/3OdTFHav14d8MG6Fcbf6cvWXc33VOOV7VBS45ZafyLo1a0IefCzN6AAjRlyYuSFVGLuj2IzJO8P3NH7uecTncRgGzUidg7Adflfm28diI33vmLOrB4fIB+e+hylnnZpOTq5pUgDwO1P3zrj5v/5LRowapasDUAy0DYT4BmLASdvx9gy16Iy9QzY7AeWyTZfcDh06XP7xHz/XNAnaCJ56sEr/AGytW7etUlveLX1JNvq3VUe0AZy/f0Bh3gUpQu5MmTVbUzOIUlSgh/U53maM+ZtkgDwAC/lxEQAiiPuzqQZy9b6xMA+mA6gn+yP06NGNpPXmEhCoN9I2vIzp0B784+9DxWjwhQcXiHPnDdTP8WnUFl8VEMRpLVwmbU8aI+NO6iF9Rw+TPq2jD0t2yboFS2Xz1vWyeP0uLTSTPkTFawdcEbT/+SBwhWAgLjMkyP3EHzNp+CDXKPhZt35D2v0tJlQTCDOP/w+f/Vww8nPKkKE6RdRBgUCbIGalXbhEwL8F2gsHbQ2ftsd8Mv6OHeUyb+4c+cAHPyzXffiD9TpCawKvpl4f8ZSTB+q77qiMlL4j69MolAEG6/55p9anmBSS940DFHgfwvUyPfKuQqcU9D7iKirMmiCAgLbEPbYPi5kDJq6sTHUC8l2lSpeY8487Oc3Y25y3O8p08MlU1FYFniNHDs9XoT4CzbTwfDXro4CUZ8OhwJuz58iVl10WGh6IllFRRzVZ2V4t8tkIvVVYS80yFdtjwESnwchQMJ1pmtU0+LDdZn5HQhOr2sjqBOk5YpKcdcZ4Gdy1Fjhz72ZZ8uYcWbLVdgSDWtYpG+jgY8VQC+u1+Tji5hqHvePmfuI5jw9Gczzv9R+9LnXgEKmJuCdVWfQHP7hJeuaWCLpOAO3dOmrrwL3j97ZDW6P90G44GF0Sd8MNN0jaRbDhNx7e43N/fV7uvvtuZezF+yHm97lGW0Cx2KVE9GPoTgESuYbvgNHDZkrYVpmQnnMDAyXQvpUAAEAASURBVPgMssx3gADFrF+zAVhMQW9zxHm7o+0hCWDjKvZ8ueTiC+u13ypOobiWKVwyFGBXQRpdTY4GGIRemi5OS9gPAC3Z+Dn5WbidDLz43fKuU7tJPP6vqTxp1UUGjpsoXZfOl7nrkA4YeuejCXUJNrztw2LNNqOzQkfZxRx54PD5WLds2SKz1NAQHblfK3ZfiisNCixbvkJuveW/pV+/k7QTbRU6eptrVeuZ2h5oAxx01t6WaXN0xq4PwPJA9g/YtGmjXHjhxQkENJKmwXtlA7I//OGPOpDQfqWIM8kAKwBs7wG9JTjagPcPcd9CO3FXWckqAetbLA37FGjfqf1VZSXgkv7SlZitnZG/5+v54FvbM9/1BFiZQl8HEBg1akS9ggDqkIAAVGgCjo5txoxpVZ6URslRqQ0/dnwIWNTyzpF5rqrn2Tyqp2nWrJOMuPqDctXQaIlLxWZZ+NICWblytry2clcoC+TdvtsgGT16qAwa1EvahI+vpXQcMESGli2R5dsw7Zl9YHx81B0kTr0IW/2yGtuHmJ17KI7nOUH3Tz/9jIw7dUzIz9Mlv/QogLGs73733wIAAAT4CI8RoI/S8u0/B3KhAm3G2xltjc54/bq1AUSedtq40iNUCT8RfcaAAQNkjppPr84BBgB+Bv5MtE9azkPfqO3B2wntgnAMCDh3Z/EAABSu8V3aZP2Zpc3S+32mR2D3YdrYlAcPBACDNGDokMGetN78BATqjbQNK2NE7K+/8krRSjkz94s0WD4QHTTlHY07djGT1WYv7UadL5fkQUCF7Fo5Q/d0ny7Ldx2sjNNs7wZZOm+3bNnUX4aOHiLdg/5AS+l0Yk/Zvme9ahBkyJuPAgbOXBku/vA4LwQFxFWtGzHmuJePFckCnURypUmBO+68K+jCtO/QUbp27RpEqy7SxY+BgLd9fNoSjJ8DSQD+6lWr5G2XXiZXXfl26d27V2kSrISf6oor3i7z588LA4jYpkD8yIy+Kyt3KwNmsOGmg6090Fa8bSBFisOcc512A3AgzGHTBLa00Ddsc7zA9dhZflaW9lxBEREASn601csuveSY9FWpN4zfSomG0ZrGiApgwJ0zVBpxhXaCNMhwaGMMEgJt5Fzzhmo2s5EEMPfuI3auK2hoM0LedvFQMUvYCgKWPyf3P/CybNBrNHzLwzRpaeDUg2P/rg2yaLaO1sYOlI7NFSm36CDdu+yQtTvso6KOfFR8IF4XOmfy8PryPITdxWGPw7e8mgeU/YbqJKQNiWLqlE546bLl8vDDD0n3Hj3DVAA6AQBJOu0YBHi79HZE+6IDRrkMEIA4efPmTXLpZZfLJz9xfekQqIk9CVuSX3XVO+See+46aAVBTAoAAHPytIeKClvNxHXaDY5473c4D/2mthlvR/g+0KioYNrJgQESAOsHrc/NdKE8H+tTrY+zNrg/DFb69esXlj6Trr5dVXhS36Wl/I8LBdBU/d0D91dhmFTEmaY1fmP6HqahexrisiNEc7fG8UGIdBh1qgxtm2tKFSvl+QdfknU5VdnsPsvDPga2BTWx696da2XZ6h2aG65MTmjbUipDh2yomPR04Ih2XXGHPHHuh5PcuZdXeN3LJY/58xf4LckvIQoAAr78T18ONgJQ/MJgEG2HzpzD2wC+txN82jqdvIFUa5flOje7fOlSeetbLy4hCjXNRznttLHKUNvpO7c+rRgVvC+hX/KBShis6Dntgnj3Pd6Ztl+L21HcnuJ0xcIsR/R48kZiuVlNv/fr16dYVeslLkkE6oWsDSvTp595TvZq44qdd4SABCQAdm6a9t5RGrOHgRMPqjUkjJiLc6QEzZt3kxEjT8wJ8ytkx6svysztOmLXRN7xelmOoh1kIPbHROuO9StlRYvO0vLADlXKUsUe3QYZkRrSANKA1LmHcj0v9/2Z/BwfV3juZVInPrbkSosCf3n0Cfkf3TsAfQDMy9oGQmarAjDAe/eDJ6c90EbwaQ903KwMwGLg5k2bpP+AgfLZG2+UAf1PKi1CNcGn6art4TOf+bTcfvsvwgZRjNCLOeszbJDSrNme0DZoO7QRDsBkHHaQ6ddoX0gGSIeP8zj8Ys7zw6cN+iqV0aNHycknDyp2S73EJSBQL2RtOJnSwKZOnRbmO+NawfwxbpGfFtDz8CHgayMO11VcljFUroOomRNDgSZ3rcMQGdnPTV9u0y2NV8p+zYOPgXtx1AHHx4Fo3z8ORudo7O4p3yDLF28J94SPaL/NtZGejwOE7KZdM3BieYeM9SerZwYECq/5OWh7j9bjBJUyJNf4KfCre38td95xuwwYOChMB7Rp0zZIkGhL3inT5rwzpj3SXvABAbRJRmSAgGVLF8vbr7hK/u6Gjzd+wqQnCBTgvY8cMUyuv/6jctNNNwVJUU2koX+jPZhvRn2QMNGWYP70W4RJQx/lgIAwB9e8veETh1/oaH9+0A4J09d98IPvl+7duhYmr9fzBATqlbzHP3P0A5gWKHQx46QBHsg1yjjeO0sasodJC/P2dDoZK918gqlim6zfUNX4D/fiPD0+jZ45WK75B8fH40o22CjgwyEOR3okBwYGMlsCnidpCLujjrGLrxFPx18YF6dP4cZDgS1qbOX+++6VXr3ZO4Dpo2wbYdpPYSfsbSa0eQWZtD8Okwbs0E2IOsp73nNN4yFAqmmtKTBi+NCwlHTZsiU16guQIZJI+iD2BWjWjPZhU5RcI572Q1uK+0bCfk4aPwrbIHngGOR4O3QwOmSIKk8fYxBAXRIQgAol7GiMLasZ+Qbmr42RBtk83yj5ALSB6u5a1tiz0ZPtuAXTtamC0NDVSpspCSoRd26Uddt1qiHS+icPPgR80rtPmYABOmHChqr5kKzzBhTYUi9bwQA6517/eGJG7mHv5ONz7uEgLvaXL18haROixt3wN6tdiO9853thVUBH3UXTdxH0EZt3wLQ7nLcP2oG3OzpgJAE7d+4I7eN73/+edOncuXETJtW+KAVoB1/64uflscefkkce+XPol6qbJiADVhNwD/0dwMBBo/dX+DaAyXRQaHOk4764/XkbJN+4LyIPHxjRbidMOD5LVBMQ4M2UsJs3b4GUb9tW9AlN/G9M0htnRWDyyrjVjztOGjwfhMVlnWo2Dtcidu+QHaokWKG6A8788bmHD4EOGJ+DD8CvEe+jN+L88Djux2Fsw+vkceFCuGZSAI+P0zkAIK1fp/zk6oYCc+bO03dTqdu+LoPC+v5MkqOvObxrSmnXrp1a9+sRRPcn9et71AX/4Y9/Uqtxv9R9MsqkZ69eAQRgLAjw6J0zhXgH7O2B905HbSOwfQEErFyxPICJr37ta9L/pH5HXbeUQcOlAO3wHVe9PTDfxx57NAxAagIDtJsD2qfh0/84GPApAqSj3ua838Kn3bkPNQrboeWXTU1dfvllMnnSxONGuAQEjhvpj03BWKYCcRZz3hiDroAyY3xt8SEp11xPAOMYzsQNDDgogMlXzZn7tNWHDyfkEeVHSmfA/qEQR/08f/94/KMiHddw+frqeSgnxGY/cXlxeg/7dXw+5OQOjwKMnBctXiobN26ShQsXyipdY0/HWF5enme+Pr3j79c7QHwOmDRGpTrrqLtHjx5BM7pv377StUvn0HHWpkb3/Or+oBPAdEAnNZGNYiAgAFPYtBvK8PLIz9tPBgL2BKUs2t2mjRtUJ+BKueaaq5MkoDbEL5E079b3PWrUSHnooT/JkiWL9akOnsOPHxWgC8hFN8oAgU1XAnodeHqf5e2Pc5x/A4Rpixz0QSgG8g1ceeUVMnbMKC4fN5d6w+NG+mNTsDfG6koLnSOjc+3QacB07NpytUPVUXuZisbCCN0YO3khIqMRM6sUphByjD7k36W7dC+rkDWKoMnLO2D/EPAtDxvZc510MGXq4Z03aTj8PGbg/hH581hd/MzAAmfEkye+3+M+cdN0S9pVq1ZLf9UK79ixg3TU/RYSOMjoGIcAAIzAn3/+b2HjHUTwKOQhyoRmWD/Dj9+bvz98nL9LwtAfhc2NGzfKa6+9Ft4Pc6MTJ04Q1n3X5BYvWSa//e0DecVAQEDr1iwTtLpQDo5yC9897QHmTwfMtNR2lZRdcOFF8omPf7SmItO1EqUACoQcv/v9g2qK+PehHR8KENCm9F/bLNIB67MM/Lok00CofQtVwQX30Qbph9B56tWrt3yxgexgmYBAiTby2j4Wo36WEB7QjrNCO/bALIlTht+8hTJ9DYOGmzc3hlqmjJ5dt/AxJrRn1VrZJKOkBwU2ay1tW2tHX25MGCbPh4Mr5vNR4CjTGYcDCGccsR8z8nBjwY99pC7GM8Di98Q+eSIpmTNnrjKi14OYGGQ+ZcqkwNAGDqiZGRUUW9KnL7/yqjzwwG9k8aKFYYOqzp27BPCGOBTmz/vyA7paB5iBOH+vEIkwjnQ47gNM8N4WLVqk9h3mB5Owl6o1NZZ8FbpFi5fIFz7/BTlBGb8rBrI5lumSZJrZlONtgTx49xyYbwUIcLCVMM/05X/+cmEx6byJUeCSiy8IEq45c2aHNgmo9P7qUKQgHYDA+0dl9drOM0VBu9/0DEhrK6B2q8XL7vKud119qOyP2fUEBI4ZqRtmQd5hojgY0KoyZ0ABnStTBZX4gVFn4n4Tj+WY97o1slaFCD1oSWWddJtfBRPb9oQPiif2D8ryMKVBZ/b4lFlW1kLa9Bsh4/o1k5WvzZGVu02nwJkK+Tjz8Pzc5xrOzymHcHxYiuyXa5RNnvht2rQJ4u2HH34k3HfiiSfKqbofQa9ePaWzip6bmmNjplmzXpO5c+eq1GRFWG7VQ3fvg1YuBYjnRol3hu/vLAYF0M/PPezv02nrgGDDhg1yry4HBJixpzzbr7LM8/Zf/K+arH4wvKvues0tBnIf5XPgCkEA7cvndW1lwC7ZuGG9XHzJW+Wss74qw4cN9Sokv4lSAL0BRuZvzp4r8+bND3sTLFu2NPRN1q6qjuyLkYmBk7vCtg0AxXVQqePkyVNk7NjRMmjggJwEwu86vn4CAseX/se9dDrJ5nrQeOk0GS0xHYDo68AB1YDVRsy5LaNBrGWjLe3aQ3rZu0wWLN8jowedoM/SSYaP7CN/XLDIrmlMzCAcDFCOfyz4lZXtZPDpU2Ri31YqHp4sq557QH776rYAQJxApPPDmb5fc9+ZP+eEHRTgFx7UwZkH6WEoHDjE1k888VQ4ByR00+U8gAPmo7Ua0k3t13foEG2uFO4qjZ9f3vUreeDX90vrNq11yqSTdlbtw8gf2sQSAN6rTwdAR95NIQggLqZxnK46ajHS512tX79elQ+XBolNjx7dtU73SV/dRZD13IAA9AzIzw8vP24DvGMOAADtnOmAtWtXy2WXvV23o/5wdVVI8U2UAj5VIKpM+NLLr+jKgke1DS4JbYd2R59XG2dt0PatoB895ZQhcvXVV8mokSNqc/txSZOAwHEh+7ErlE61JkejRYMaR0dORwwYsE5bJQMKBg7oOlqcMWJjoDRwi9sgr8xaIVcOOkUXDZZJ+wkXyQVTb5PH19pcGGnIN+6g40475NH/NDldQUBwFetVRLxVmYFNKRDH/TiehXtrcqShLJyH8TlgCvg45r2dibhvz2frhWFyOER5q1evkWVqvpb7Pe9eqqk+btxY6d69W8lIDR586GG5RzXxsdMfj7Rj+iAJ4H1Y+7AwdCLO6edhf2/+vj2e9DW9R0/Xvn37sOvfsmXL1E5A7yCZsCkBkwKQLi4jbmP+rhiNAQJo0/7O3/XOd1CF5BIFqqXA+NPGCcc8NUf+jFpmnTFjemhH3EDbpR1WBQbWj3r/gN7M4MFDhB0r2Q4Z4NqQXTOteNbjNuSaprodEQW2by+X8845R7bqmuuaXPOc0lcbbcA08hO04cIMgr12nYdtwZywnjMna+Z/bTQWtGZbjZT3f+MTMqVDjmGvfUZu+dHjsrZZJn53ZnCQ37yPnHvdNTKlO6Nx3bBoweNy54NzZJd+bKTlwLkfh4s1XY/D53AwAGPww4EOzJ6DvGPGB3OB0cVMJlQi90O+5EXe3M+9SA16K7MCGPTSZXJ0BI3FMfq5++5fyeuvzQoggE7LaNMyaOObPgDv23QCnGYxnQhzQMvYj+O55u+x0I9p5e+OOOiM26Ltd4OK9GlvXj8vx/N1kOfvGR8gh40AN2D12c9+VsaMHhnyTD+JArWlwAZdKbNfweTCRYtDm5w3b37+Vtor38Qpp5wc4rp37y59+vRuVAOEBATyr7M0A7u1Izz7zLNks2po1+ToTFurGBwGhgEigADiMJg/c7Rlyhhbopmt575EzEeKZWUtpfOkj8i/fGistAuFVMjOJc/Jvb96ShbtNCYejyDpwHFlHU6Rt1x9qZzRz+6SinXy4t2/lr+tjyUQGRAoxjz4CGPnzMCZCT5xMAVGhvhojTM65PkMAJSpn1mko3582P58Hvby4/IIezySFUAGeTKNMHHi+AAQiim+FeZxPM5hjnffc5/c9b93SDftvBC5OwCE6bdqZdMlBgRsVYDTBBoRxuf543AcxzXOcYQLz2t6bn+HvD/CvL9tqukPnSnP8yMPT4PvEgDexe7du2T9unVBL+CXd92VthKuieDpWpOlQJoaaAKvfl9O9F/To4aOVjtOOlGYPujXGaAvGcR4C9fcZR3xPtk6/Xfy23ED5UNjOurlMmk78Dy5/l8myNIZL8kbr8+QFxZtzzOEsp4j5dwxI2Tk5KGZeWLZIcue+ov8dc2e/IZF1IkycDATznEe5+chMvdDnMfDFJxBeDznzBmvX7dW2qqSEGAApgIQYC06I04YOc9OmU4DAwwmBaF87sER9vJIw0EZm3Tjmj//+S8BWLFEEWCAQR2UhBqK+/FPfiY/ueVHMmzkyPD8SIV4Ljtc1O++Pasz+fgZ/H0QRzg+CkGApy3me5y/qzg/ABy0xf4AOhxOc+4pfMekBQSwpTCAb55qg3/8hk8lEBC/tBROFIgokCQCETFKMUiH+R//+UP5yX/ffMjHg8kjdqXDdYkAUgLOw6hQpwVaKcNEedAZJEyDzj4wj1YD5IK/v0GuPqXDIcuqmmCHLH/+Yfnds0tkl+aFo4P3I07rzCKO87AzB2ck+DAFnDMHfETMf3v2GemkTKW9avIyFQIocE10zjl4bp6T5UQednDgQIHnJky9YqYX18kZFT7Kh2gp49q3bycY0znxxN7SQcPHch7xllt/Kr+47Wdh7p3pIHt2pAAmJQEQ8Vz27h0cZD7P6++e544Pf29+nWf1ONIRjuP8PERGP/4+Y/oRh0Rnxw7dujoH+vw9827RCdi9G4NBu8K0wObNm+SLX/zScbXaFj1SCiYKNEgKJIlAg3wtdVcpOtmBAweGDp1RUk3OTQ4706TTdibHfSiK7S/TVQaVuuxP8+UcPksZdNasIHjq5v+U1Re+U655+1jpaTy9piJVa2+5zHz0MXn0zfWqIaB5aedOuThnBORfHbMICXNpnTF4HM/hccYkmNe3eeNdOlLkwLl+RDtVTmNqpE3bdoFZt1JpQZgeUSCA0RqkBtQN5lgdg4ReARQpQPB6c+6OeiDexuEvWrQ4MCxs5bNcccyY0aEObDzidPB768Jn7/Nbf/xTuf1nP5UTFYSE6RF9PmPaBuoo15UCMz/TAaAe/myxH8eTh78z9+PnKbzP78UvdNSN9sU9vE8AE3lhC8LfMT7SLA5AQHn5dlmhSobvff8HEwgoJGg6TxQooECSCBQQpBRPmQs+64wzD6kwyLOHka8yOlcYhFEgFaAzDiNjnTcm3JwRYxgxwzxspGgMhLAygRb9ZNLbTpPeHU+WKZMH5nQHnLrlsnTmLFm2folMnbZEdgZQcTDjoOMvZB7k4IzFc8N3hh+HYR4+mvR5Y3xG5Zde+jbdn/x2efLRv8TZBFCAtnpHFeUzUiYtVvRMiRILdkYHt2sfM37Cfu4+tHKm5wVRV1z8HMR5XXlm7qceXdSwDgAB5aN2YeR+dNrH3//3m+TO238uPVWxEWkITBUpgAGeTPrBO3TdAJ6ZMM9i7ziTAPjzuV943Z8Rn2tOC/edJp7Ozwt9f79OJxg/9AIMuN4AugNM+6xdu0btEPTS7Vw/IJNOnxDqXZhfOk8USBTIKJCAQEaLkg2xFfE//MON8rjuuFUbxwjZgUBgFDmlOuIAA4FJaBqUB21eGcZgomTv7GEMzhxslQFMIBtVZtcyZu/3xkwiZhBxfOFzOKMg3sP4zjAMCNhWxqNHj5Zrr31X0OpdsXJVmE+ePn1mWLu+VS3OrVP9gTdee1WWLlkSgBHPDdNk+sDp0q6dra8PI+qcoiHKdQYGTGLA8/CcMSggjnrhYhqFiCI/pEXznedAWtG3bx8ZMmSw9FP/cKcSMM/7YWWO5BWAjgIc6o/kg+eiPvaObWUI9QYY+nN4ff09cU44PnhHhef+3ojH4Re+V+I9HeHYxe+TeOofv1v2PAAMMGWwe/dOBVAd5Ob/+kGcRQonCiQK1ECBBARqIE4pXZq/YKFc/ra3BXPCtXkuGDyjYRgF+gK2dJDlZCdoRw5z0wOJgI4Uw4qC3LJCmAcuYxIwCx8NxkyDOBstk94ZiPse5wzDfeKrc84wuM5o0RgGUoHKwOxhFDC2IUOGBM1zlvuxzpclkcXMCs+Y+bJMnTotGLNZtnhxvliYZTsFBtACgMCcf7B5r0Z4GF0HsKA28KGBM1Nnoh5HZh52ZsszFntO4pzxmSb8bl2N0E0GquLhgAEDVAGxf75uNQWuuPIqWbxgQVghwDQI7zdIA/T9el1iIBCkQ/o+Ydw8Bz7pnJF7mHM/qKuHPZ0/F+c4jyccP69fJ77Q8T5x/o459wOFwAUL5gfrkEsWL5Jvfftf5awzpxRmkc4TBRIFqqFAAgLVEKbUopEKXHj+BbJqxYpaPRodtCsM+pIymASjR2MaCgKUgTJFYFIBAwc+TWAMwUGA+5lUgE4fgICUwBmF+84QLI9M0YDz6hwMAgdzyJgFymOcs8nH/rCefMCAgaq93zOkY6SNpID0J598sozQDUiwA1BoVnjNmrXym9/+XqZPnybPPfVkvgoAIGjCtAFi/CBq96kE9WGeSFBIA9ggTBza7DgXvTsQ4Bq0LWSw/tzuc288KkaTvmvO2iEKiLyDvn1PzNvrX7BwkXznO9+RZ598UjprOtIHBcEcEDBJhtWNulj5BmIK6+R1oy4etndpYID4wnOPw/cwz4Dj3H0Ph4iCH3+nRBP29wwdCLOBEdYIp0yZotvMXhHoXZBFOk0USBSohgJJWbAawpRadCvt4Kecebb89v57a/VodLbMuYZOXZkT56ETz4U9k8oWxoD9XHlZSOvMXMd/es5V89nS2Dv1ykpAgOVL3iF/BQhcx3FOJ4/v5yFQ5CfLM8sfDXJf+sjccZcuXfMggCyCtEOBDQ7xMhbsYNqI3Blx9+vXJzD4Pn1OlM98+gZNdYMwlbBixUqZOfMlWbNmtdrjnyML1CY/imlhBK10ZrSN6D3klQMGlGWAoFVQZqNM0hPHqBymasAhAwPOhB0oOOOFHoRxpEEHhPpDK4ANzBEfwybDhw+T2267XZ554olcWToFoPcAFrJ3FLLK/dh7oAw/4quE/X0Uxld37vl4neM8/Fp8b3X5E+/tgbp7O8EH3EDjYcOGJhAQEzOFEwVqQYEEBGpBpFJJcuaZZ9YaCPDMbDqEDQI6XcLeacN84k5YT3SnbmXeOQZuzD4T5TZrxqicaQC2HWbkCLNGtJuNIsnbOncYfzaHbGVSG2NMhIo5GAQO30GBAwHbN6EirOVn2RnlwJScMVGGM2HyAADBWLF1jygejX72GmC7YhT3hg8fqgqQp5M0OCQGWBx75ZVZ8uqrs2TaC8/LwrVrwzWkKQCLIDXQaQQUD5Gk4IIBH2VeTCtQPgzfDsCAKR4SD1P3Ons9Off3QV48M+eeB3Eo0j3//Avy9BOPhWtIMPye4OdoGutuaE4hL+6vjXNa1yYtaaqUr/WNnbepOK4wzP2F6TxP0k6fPkNGjxoR6FV4bzpPFEgUKE6BBASK06UkY8877+yg8LZTmWFtXWBCygzDSEyZjzHrbMROPnTEImYNUE9yHTUjVlPq8nvcV96mycjL5u/JgxGqM7NMSsCVbGRq5RB3sGMUbEzMmKIxfxMb8wwAEPIvLy8PAMAZKj71ikEBuVMWo3VGmdy/WHUEKIODuXVG2qz/R2mvd+9e4fB56dffmC233nprMGbDVMIe1U3AxDMjcfJzxzQLkgOmFIh3YOCSA/MBCKbIRx2pb+wT9iNmiJSBcuFzzz0byqdsQAJpPZ37Xp9CH3rFh1/398Q5ebiL4z0O2vpBWsLxPXEdHMz5vbFPOs8fH+f54JMvgAtjQ0ht+p/UL749hRMFEgVqoEACAjUQp9QuMfd96vgJ8oIyh9o6Ol1GxdgYoLPdo52uj7q9IyavysqsKaE3wH0wHR9helqYvPJVzcukBNyLroB38gYQnLlYB08a7tf/g1yOJ+TrRHlMBwAEqCdMHOZN3ZlHBhD4vL0zUHwHBpTj4ICw1yseaRP35puzdfT/WmDgSAzQEWAqoU+fPnLKyQPlVrXYh1uqmxW98sqrOp2wQjdTmidzZr8pw0eYrftXXpoproTo+hguOWirtgxgbCzdBHhQR6uDmUIm7KAgfg5n9sTx3l6eOSPUg3hnwuaH6Co/PNehXJyGMIe/22L3UpYBmpa5d1hcshOAZo7enm+cX1wu8f5uyB/H/Twz4Ad6JyAQyJJ+EgVqRYGs965V8pSoMVOATvPd775WXvzrc6EDr+2zhCkC7Whx3gE7A/BO233SVCiTb67pLY65aDMSxDmdtcWz1bExkcpKGD4jVc5hLs7xnRGHkvkp4ox5wfwddLiCICDAgMB+XYLH0sE9edG5a/ejxEfZDgSoH3SKmWwMDKgANPD0nCOCZ/kaUgPKgxmdf/55IQ2rEQaoieFijimF51+YKjf/8CZZrtMQSA626fJFbOMDAsing4IMpAZh/wedQiDegAzTCFWX/FF3rzfMd+HChbJFTR1T33Doc+HzfPiFjvdSG0e6wvuLxZFXKFfLom7U3eLCbwjzznC8M18myXlt60JaXFwOuh68B2iRXKJAosChKZC+lEPTqGRSsHwOpoVt+TlvvHFYz0XHzNw5jrlmwAFSAjrcVuofUB9mVaFz/0Ei0EKBgP6RDsbDPfjoBvicNOchv8CY0EFAjGwMyhgNTCs+D8mr/FAv+JcxjqrSAEbEHGtVqW/t6tVh9E4dzYJgu8BoW+uSPxgronlnrIyeYaTUzxmrM37iYGoc1NGfgbAzOkanTzzxVKgnzNyWYerqAtUP6N69myosdg/X2IzonVdfKZdcfKFsUpH23LnzZN68+bJy5Up5aeZ0mT9nTtizgLpwuLSAKYQ2bVnaaeag3Tyw1dsUD0MdHn0k0MVomWOWWn+uGb0yUnJOOo8nDc9mvr0DrhU/mkmbfqPltP49pe/oYdKndbbSQ2S3rF+4VDZsWi3LN+sW1sqcbbWIAxHP23Zy3LdvrypT7gnlZrU7OOT19Cv+jJzzzl997fWwjaxfT36iQKJA9RRIywerp03JXfn5bXfInx9+SE7qP0Bmv/lG0HY/koeEqTuzhEG5jQHiYLTGLJmTztng1/TYG2CPAq5hg4COG8aPT5yd50auGqdsK1TNrhcXJ2dMCSBgzA3GBTjhfI8yFGzNM/pnyd7s11/PPy71Drstqg0AmHU7NUKD78Z1wnPl5tV9KsFBgY+87TmzUbiDg3whBQHqy6gXRoXD/kCPHj3kApUeoIhY6KqzY0C6YL9ApyN4ho4d1Qqi+oAaVzzEMNLzup8CDhoCIkiD/QOeE+AT0vLO9PBncsDDu8niAHEHL2ssKztBeo2crFYrx8vgrrUYU+zbIsvnLpSVO7KVIKGCuR9fzgkQQKmT9+guZvwxkCGe8/gww0K75brrPhS2hPY8kp8okChQnAIJCBSnS8nFLtclb1/SzVe66rI4GBDz5k8/8XitzA4XIwYjO5hlYP45ABDAgTKYjEG6VbqcRADmEkaEBgiYr4fhF4IByouBgYOCg+tx8AjVFfrwd5RvV4bZUf71X78dRuuzZ8+Re++9V+bPnSOL1LAODlDTQg8YJGJ4GCSMsq1aDrRteG00bqPvqtr8MMr4cCZKnNf/4DpnMTAx6gnduNckB7bMkCWL2ALArPD+/QeCxGDDho1BzwGpAfoGgLl1a9bIbl0+CBgDxKCrgAVE7EWUq/QHR12QgvBsDgSQfpyg+yf4NIObEDZQYKN2Az7ZckZ/rwbcOsjgy66Va07trgtDD8ftl/JVS2XJpj0KDDOAxzQRhoEAAyyH3LlzV7AU6AAA3w9Ki+NjEEA8kiuUQgFZ1334A+EdHU4NU9pEgaZGgQQESvyNAwBuuukHKh5fExhdB2WMYTSs87V0oI+ohGB9bqnb4ZICJupgwKUCnLvEAKYCEzImY6N+gABTB4GZ5CQEpMnExZmEgPrUxFCpP47O35kBo0imI/aqiBkTyF/7+tdk+LChIZ3/bNu2Xd5UUIAoHot0q3XaYK4q8W3XeX6YUaAPo2ekBXrAoNmIyObnc+aXq7Ec6GAA3xlndcCAZ6vO+eiYMocNGxZAQTGzwtUZO4rzpRwHAjwP4RgIGPM3yQbAwOpu763wOXiWsrLOMvqaD8lVQ9tnxVRslgUvzVcAMlteW7U7vDfo1r7bIDXUNEROPqWXtM0/roKBtatk7Q6bNgLoIcHxkfzWrdtU52J7OPd3jB8zfy/Y4/39OxBA6sK7/NCHPiAn9evryZOfKJAoUIQCCQgUIUqpRK1evUb+/T9uUjFreV4U7LvoOXNi9HTXHbfnO9kjefYwokUqwKg0AgKAg+ZMBeDnRsl5UKDxIc4lAtEo2hkkjNR1BIrVi1FknhEo89+PASEFAnv37pN1uvHMj265VU6fOL7YrQfFIYreogxopS49e/DBB+V3D/w6vzsh9UEEDzBg1I3kAGbKlsxo+zsYgrlCAz8cCMBMeVZ8Z6xUgDB5+/MeVCmNQGIAKOA9YeTopJNOCs9UbCrhhRenyR133KHGgx7PTz+QJ/nHQIBpAiQcQSKAvYJcnalvMSBA3c3+A35L6TDmHfJ37xgubUKFK2TXyhnyp4emyfJdpgxKPpQZAJTSDTDTqccgGTNhpPRw/YED5bJ25WbZl3vvZIUkYNcu02PZvHlLmB7g+WHufpDOAQFhf/9xOmgFIESB8wMfeJ+cPGggSZNLFEgUqIYCzb+urpprKboRU2DJ0mXyhS98IYiNO6nVNebJnVHTsXtnjbi4lXbUaK0fqfPO2Jmad9qBwSlDQKmwqj66K6VpB6+F8stgkXQ49y1fOnsYftUDLfPQ+es9+ICA/ToKxJQyEo6zzjlPPvqRD4f8avMDM++o0wNs6nPB+W+RCy++RC665K2yXQHC4oULQt6MMAEMiNwZvbKNsTMdTBjDfEJdVJSPj0EjnoGDc/e5F+bOqNXj7VkLqKS04z3x3mCm5L9hwwaZM2dukGgg7Vm/fkPIFwL219UJZ599ttz7q1+FFQj+3EhoAjPPAZEA1gLIUjDm0hkti/cFw7f3aL61E8CETQA0az9Wrn7vGXJiS96YgoDlz8l990+TVXurriQgDwdE1KNFs306VSPSsWcXaY0CaJmCo7262mK3mYEmvTF4U/jkWZ223O/MP/a9ncXXCUNTT4cErNg+EqRLLlEgUcAoUAsNn0SqxkYBRoY//OEPwqivW7fuykSydegxCOC5YEBjxoxVgzi95ZE/PSSHY2wopgsj8T25kRvMo0KZFww9zMErA2qu18PImHBzs1LItTJlMCG9xuFQKDRGpIwpJy2IyyEcGICCh8A8tQzOYcRonG9R7fvxE0+X//t//7nwtsM6HzZ0iHCce85ZwUAN+gXMzWNWePbsN+Xl6dPz+gVICWDUPv/OiJvdCaE1QCuTFNh+AzA4HIwylhIE+uSYdhw2ZmxL8MgTB5BYq4AHC4izZr0aaNBJlxk+//zzB+l9BCDG9EmOQcIoW7RU0EFcjn56EvLg3JQ4OTfaarJwjfgOo0+VoW1zWgEVK+VvD86UtfvjZaFZPuTljvDeHWtk0cqeMm5AB32zagCobQvZu36LHNB8USCF+XP4fbQDDztjJ7/w/rVSHkcaj/Py8KEvSwlFzoqjUzhRIFGggAIJCBQQpLGf3v/r38pvfvNrFSN3DwwI8SwjwDAihPHmGC0+jk6Uzpf0Y04dJ1Of/9sRkwBGw1p4mLmPdNEJYORLp0wcgCCMUDUNImk6e+qy/4DVhxGqAQETaROOHR0+0gH8A2o0SAPGQLSMjTpaHn/6pLwxn/i+owkzN89x8UUX5LNBox8JwS9/+Ut58tG/BCnBBt30BodGP0cQjTMnr/oFbjAIUICxI5wDBN4PjJBpEwcAse9h6OTvjfuhAeeADehkI2hbkcB1d84kjXY55qz3hvgcoCJtnA4QoMP2fBztpFmz7jJyxIk55cAK2THrBZm5TZ9F68C9cR5eH+qOo40hIdm5brksbaESqoqdKt3YIZVBAmHLSg0IqH5HAEpZfiGD6MfrSZSX65cLz2lzySUKJArUTIEEBGqmT6O6+vCfH5Xf/uYBQRzKCNUZDUyYjhmmgc+Bo3P30RQd5sBBJ8sbr72a1zY/kocPnbTmtZdRmh5BOVABCCDhANIAPagHwOSAXi+jXjmAEuqk4biOhXVwJoBPnZFEwEAw4dtdtcS/8IXPF95SL+cTJ5wW8kViAChAXD9H1/2vWLE87FDoGvtIB2wVginpAQ6YGsChd8BcPboHMMzsfRkg8Pl6rkEzBwQO6vD9XZIfaTBIVMxBf3/XHmZ6pay5vSfCzZtbuwAEVFQwGkfcb0v9KKeyw2AZeVKrXPbbZN7slXIAMKIHeVM+PmnxOZBc8H54XyGPyrWyeMcGDZsUgGfw9kB6QCNAAF0B7sNxr/sejs+Ji4/4GlM5ySUKJArUTIEEBGqmT6O4ysj09l/8rzz77NNqsKZHYCwwFWMumWlZOmIOnI+U6HzpcN0k73kXXCivKxhYumjRUT07HXMY2WmnHqYH6PD1AJTkmZp2+tTHGRrxSBNwKBm6MwZizADwACPz/GEcLJ+75NLL5Ktf/X/SRfUhjrUDFDgwoGxWJMyZMy+sRpg/f14AVyxX9OdHaoLzFQlYDgwKfAreMDqEhCCeUjCJDoyzuFlh3rODhR07izO+QDelHcCpQt+NM2pnoJyjH4Dv9C6UCijSkm7+Wiq2yrr1e/U9GKDkHZIX95IH75Jz2hlxKALic+6Kh9YOADMGcrxc0wfJ9CrIJ3ZeZ+IKw5Qdx/k5eSeXKJAoUJwCCQgUp0ujiaWDvetu21oY8X7QbM8pBvpoiw4X552hd474gAAOG4nZGm4MDmGJDwZbFw7GvTfHEGBELgEII1xlYjgYP/Vzo0PFyqW+YTSrjAHflfWGjhghX/vaV4S9FBqCGzliuIrQh1epihsHmj59mi5TtFH7KzNnBp0MpjRg9ugaAA7MFkD7MLWA1ADpDtMGbtcAMMW7rQKqcueuaFmlcD2BXjBhmGSgIQyTaQGNq8gxcaQCSACMicNQjZlDd+KatVOjRJ7xzo2yvlzz84mCXBryx4V3lYsjzLtFOuB5edvE5xptAd+ZOOlwnp/7Hufnnj72udfP+T4oFxomlyiQKFCcAgkIFKdLo4hdpcx65sxXwja5XdRcLRrvr7/+RujwfYQYmKt2sDjvHOkoYQocKNhhhx8wUK4GeLZv3xYU3f7t3/9Dd677qzz5+KOyWTfrqQtH+QAO/cl3/uRLHQEHXlcHLnGZ1Nk7+MDU9Pysc8+TT37ykzJ2zGhlnu3i5A0unEkNbpA9YQ5cVNlvXbBlMHPmS2Gpm5sV3pBj6kgFkBT4qg8sB/oOhTaNYMqHAAIHB2u0TRRz0N7pFt6/vu8KZb4VqpMR6Ap9AyM2OpOHAwOtjjH2eGC+e4ds368MNz+doPlrHjh/f7Qv4hy08H45D6CCd54Df/gc1NEdYb+fuMJrcTq/Tnp3pOcIzxbl69eTnyiQKJBRIAGBjBaNKvTsc3/TXdZm6bryfsGCGqPFbt26hjAM3B2dL847RjpLO0wSwIjJDblsUoZ/849uzi+3uuLtl8nUae+Uf/7yP+V3yfN8j9anPgEUHGFGN/7jl+RTf/dJZYCNrwmfoKN/HDvkcRQqIU6dOk2eevJxeXnGjDDnj3SG9+hmhU0R0UwG+4oFgADgb0fOmmAxsoYpAX3/gD50NWCSgVGqH5ioluHtxO6HMVfPUJ3Rxkw8jnOmHzNolwSQvwMAno2wO/LgnpqYOGlw+F5mfB5fDwnTT6JAokC1FGh8vWi1j9J0Lvzt+ReDchpL/uINZ+hQ2RJ38ODButRtXhiJQRXvLL3DRHvbltu5YtYuVRDcJgMHDcqDAKfm5EkT5Y4775TvfOe78vgjf/bo4+YzDfD/vvJVOevMKcetDvVZsEsOPv7xjwaJAUqIixcvCaaF161bG/QNFuuugi4FYOUFBo58/wB0AapzvH9AANMzHNhdgAEfOID+horvA0hEMpONrJm/x9G2dOZAYUHOdekuPcoOyNqoONLgyBMm7ufucw0GzzlpYp+wH6SL2yznseMaztM4YCj0KcvTxvencKJAokBVCiQgUJUeDf7szdlzgzi5V69eYd6TuU9EyD7SQsFr2LAhYde6jTmRvneYdIxsvsNUwN69GLTZL5t1m1okAqPHjJFPfOLjRZ+fbXR/+pNb5fEnngq2+l/SeW609I+VY+nd2ee9RS5VhcDzzz+3wegC1OfzIzVwiUFhObG+wXNPPZmfugmjfH3H1TnXDdivaYJdBwURME/aRdl+ZeLaG5QRDqNzY+S+1BFAsE8tVW6WUdKDAprpNsmtVdSvegLuuI+25iDAz2NmTFm0VXwHAiG7CBz4OX58L+fuvBy/ju9xDgg8zu9JfqJAokBxCiQgUJwuDS52iy4Le+ihPwfFp549e+o8ftsgCkbJDPE4u8NZB26jt3PPPUfeeONNBQ1z8509kgBAAMpTu3ezsYtZyvuvm2+WQQP7H/KZL7rwfOHAvv0Dv/md/OaB++t8yiCuBHPj4yZMVDOxH5QLLzgvvtSkwy41ELkhLF38wx/+KH997plavYugJ6DSgGDwKce0lYVqG7FlgCgbwkgx7eyM1HzVB1CzzWt0RV8Peg3db6Bnj5Yi5XvzjN/T+8vh3EFBdk0NCfUdJaed1ExWvPqmrNiVSQ4AB+5cOoCP4/5ivscVMn/O/fB7QwbpJ1EgUeAgCiQgcBBJGmbEY489GcS67KgGCAAAMCdsSoGAAOsw6Tjp+Bjxjxw5IpikZVMdRnbY4AcE7Nq1U7Zu3SIL58+XH978o1qBgJgqvXv3kr//zN/JNe+6WpYuWy5//OODcu9d/xsnOarwOedfEETdn/nMp2WUPkNy1VPAQUF5uZpCXrJUPvi+99ZoBwJpQAs9mCJgaoDVGgd0hI6Fx7CiA5G9GncyBmzKfZSuyVVgsEwWLNsjY04+QWM6yYjRfeUPCxYyFxCYLum8/QFKYcQOTgnb9U4yZPIZcnrfVnL66VNk5bO/lt/MslUU3GvlhqR55m9nB//Szj1ffD/H98OvH3x3ikkUSBRwCiQg4JRooP7cefN1ZD87KNYxHQAAYCoAn07WpgQAAdaJxp0hIn82qVmhW9ISRjmPDYjWrF4l/U7qL7f8+CeCDsCROgABB3l86lM3qOndzAzvdlVam6OmeHE7ysvDtriE+/TrFzbAIYyjHieeqNbqVKIxRqcnRo48eOmdpUy/NVGAVRNDhpySZ7zVpUUiEACAMv99CiRpQ75iQ20d2tSAggJM+cCUXYTPlNOBA+vllVkr5KqTtRz9az/hYrnwxaXyGGICdbQ9nIMAZ+r4Htd84HiZpCAguIp1Mn+emhgOyxar6ghw3e+3xFV/vayY4TvTx/cjljJUzSGdJQokCjgFEhBwSjRAf5EqiT3++JNhH4CuXbsGnQCmAQABrhNg2/eaQlcMAugAOTp16iiTJ0+Wv/71r7Jly2ZZsXyZjBo9Vv7zP75Xp09czAyvF8Bo9XWdpsCNHjWywS/183o3Nh9mi3XF6qwL+vO4joDrDARfgUEwKqXSgAOaD0wYZkr7cmbaTDcO2vTs4zL1okFyRgdtc2V95Lxrz5XXb35cVuuA35k95Tjzd0ZNXFmLvnLm+cPFFnrqhkUL35DZ29TqoJaFI60zf/fDhSI/pMVRx7gMBwD4/g142iLZpKhEgUQBpYBxkESKBkmBGTNeEqQAbdtiitZ0AZgKMMtsrL02SQCVp7Oj88N5B4j4F+t+bD3MaHvL5k1Bw/wrX/k/Id2x+mG0OmXy6eFo6Ov9jxVN6qOcVqr8N2RYVUNGxcpxPQHaB1IiDm8zjM4DE9WpJIurOro+sHeOPPi718TtF5b1Oleu/8RFcopyd2+DMTPOh9sMkHPec5Wc0V31CnAV62XWC/NlR67dejrKjMNZvbw+5pMmTlt47td8K2QrNP0mCiQKFKNAkggUo0pB3Fbdp36DauCzRzrORkk2EnHGjFY1IyJjzhJG7YxquM7Srjaq+V5bJvji1OmyaNHiMAXAjnIsFTOrcpjndZO8GYZjJMcACX+/boHrnTthbK0jpt+iWv5vu/RyueKKy5uE1n3BK2wyp1iWrI1jmSHthPYJICjTMC5o9O+3thX0BrQN0479qKjQHR6n/k4eGDdQrhuLJccyaTfwLfKx/zNRlkyfKW+8Pl1eXFwe2iP5lfUaJeeNGSGjpgzLzBMrjFj21F/kuTV7gjSAvAER+DgP+3mIjH64jot9Bw/EOShwMMB3mVyiQKJA9RRIQKB62qhC3TaZPmOmMtOdgREzN0/H6cv16DTZNQ4QkI3SEatax0OnRGcLE96gTJmROSOUHt27hQ63WNHzFyyUBXog0sfufBu1JkeZ2cqATB+A+5m7pV8EBLAc0KUAtkRwrz7DVl2HvljOOGOKXHLxhcWKTHElRIH+ah66Ns6nBWif6AigKAjjpU17+w3AtsKV/pgi8Hn7jTL15/8jHT77d/LOwR1yxbWXgaefF47La6zADln+/J/kd9PWyH4tjzKcoVN+zPw9vlh2fg2mj8MnzkEAPt8E305yiQKJAjVTIH0lBfSBka5ctTpnxGVT6BhNS5+1+mU5Qy62XI9O0wGAdaBuKAUwYJ2md2ytWtFJVYYle8uW7wp7AnTs2EFaK7jAbdq8Wf6suweWq2Jdnz598isDzGIcqwI4MhBgHSEW2Ex0G4t5UQwEvCANIN1733utDBs6pOBJ02kpUuDss8+Sn9yiOxweYp8I2gUgIGa+xPmeDywpVJWAKoy5eXPam43am1Wo/soP/l1WX/IuefcVp0rP2gy6dy6XGX/5i/zljfVFJQFxXXg3/u0Uvidr+xYbAwDiDQgYIOb5ML2dXKJAokDNFEhAIKIPS+FeeumVMILHQp8Z62FuXjeEURO+LgFgFzgDAAYEXCKAn4nucx2meVEpjOIl7MYG0+/SpbNOAyyR+fMXBElDZ10778sD3Wwsefoojc4RKQCgAof4kw6PA32A3bv3hKmAtWvXBhDwvve9R3r36lml/HRSuhQYNnSwDFPri7NeeumQDxmsC+ZG4b5ygHaEYaJgZZD2rMA4OJCtOqwOwnAZyTdrtkneePQ2mfP0STLp0vHSp+PJMmXKoJwyYEiuP+WydMYrsnT9Ipk6dansyJXnTL9QIuB3EV+dc+bPdQcFJgFwUGzLI9lHA+ubySUKJArUTIEEBJQ+jKBfeHGavPzyK2EEAQhAMz9m/jb695G5if9dGkCnVfXIdZos6ct1aPHoBqMtzTV/5mm3bNmqy/tWhg6tQ4cOoUwr25cH0iF6J2xzqYAAH/24JAAbAYAApADr168Pz/SR6z6UQEDN7b/krqKP8r73f7BWQICHp/3gnCHj02YBoYXOdzZEMoDjXr4L2btMpj20MoDVB+8zqRgSLNq8fRcGZEPeERDwMv3bcL+w3MJz2r4fXDMpQLY3AfXCgiZAe8SIYYW3p/NEgUSBAgo00w/KvuqCC03ldLca2Hn22b+qbf75AiNGCsA8PsyYztCX6xGm4zKpgGvuZxIBlwSE0XtuTb9vqesdXG5QpZ2YjWTCKIaJV3XLFQzs3LkrX54BDwMc2buw6QXv+JAGIAXASBD3AgLWrVsno3SJ3tlnnRGeI7s3hZoKBfbqqP5CNcq0Su1H1NaFtq5tHnPO6MBwzoZGtlTVdFSQFLTQ7ZCRHtA+/Xtwv1AiRrsnHfGE+TYAtRZHzUwngGt+hNjcOeFizkGA+y4NcOVAjGnxLfTs2Uu++Y2vhvKK5ZPiEgUSBYwCTVoisH7DRvnlL+8OnRDr9J35o2CEEqAxY+vwvCOj06NDc78wHrICACze0hKOnZ1ax1ipHSUdWJ8+J8pqteVOp0a5lO8dJff6dADXbcSTKQaiD8DKgCVLloRlgvFudnG5Kdw0KMAywmEjRh4WEKBNweDD0kJtj7RBH/HTfg+ofQGdL4B1q+8SKkbjHqY9c07bx2wwbd+3MrapBFYYcCvtne8nl00Y3VOGHzD4wm8mfnNc5zvAZd9F1WWH27dtk4svviSBgJhwKZwoUA0FmiwQwHb/nXf+MojQMdtLx+cjG+ukjJlDNzoli6OzsnP9DST1zss7LjrKqumzdJ4XHVnmVEFLy8b10rn8zao0aJftPuK9s/MOkI6UTppVAkwHsJXwJt08iJUBZ599Jrck18QpcPbZ58hTjz1aayrQtvaqZIl2jvNpgDLn1sTl2i2KhM1V9I9TzJzF63VAQGUlUgADtGVlBgIOHDBxvn8b5BV/OxYOWeqPfUOceZl+xXyTjPl1kwS4nYGK8E0PHjJUgcAFVW9LZ4kCiQJFKdAkgcDadesDCKCTQavYRaGIQ2HKNvdvI3YHCAYADBx4p3VQR3YQCDCa59NF4CFcUV5Pp2qdImu4dQ8BrcNGZeqZHgAjHRsBuSSAqQDfPIiliRwXXniBjBk9suhLTpFNjwKTjsB0NO0Q88O0V5xLtmLqhWuarqLMR+QZkHVpFvnkAUUlei2AZ5i6SQq8vfuUQb48TeTh7P4YNBsw4H6+nOwbwbiQbq2sK2j4RnbqtMB5550rXVTxNrlEgUSBQ1OgSQKBxx57IoyiAQFMA9DpcNAJmU+4OqYfx9voKSazd550fOSXP6JRjnd23Eenxh82HgmH/eVVV8ElA8T5dICvDkAKgCIUSo64z93498FPP4kCToGRI4bL+z98ndzzv3d6VK18GCnt05ittWHCVdss34ztGhh3IABoFVbl03JfZSV2CAAGfFtIClh1YPc2a2bxekeomzN/TkhT6DS74Pge/LotnzVpAHVHOtCr94mSpscKqZfOEwWqp0D8HVefqoSuzJ4zT6ZPnx7W6tvoP9MBMKadPayd00lZR5VdyUJxB5nFVh/y9PhxB6uQIdyEZBYJBQcKgHR6dG6AADo6fKYC2EJ4zZo1uo/ApOoLS1eaNAU+//kbZfq0qTJ/zpxa04E2SRtjRYs74nDEGXNXYJCbQqB9tqhoEeLRDzAJmrVtGLu1ce7LAIGDbKYNKMa+CdvbwL+PqHivhuaRA84aiIEA3wcSAb6PctWVufTSy/L3pECiQKLAoSnQpICAb5nL8kCfBnBJAB2QjUgy8eShyZel0NvzI6E4TAqYPPl7J1fok0ZlEqKroAmGzrST1pGRFJIBOjq3EQAI2LBhgwwaNCisDhg7dnS4J/0kChRSoKtKvN5y/oWHBQTIA+aNjYG9Go7bqgMCfB+9t8iN0pFqsaLAr7HEEGaNvkAMCFAuBAgkhBIaAABAAElEQVQgIQAcENYS1adkK8/LtJjsl7ztMIkBYQMBpjPDlBlSsiOZFslKSaFEgaZHgSYDBOg0fvGLO2Xbtq3StWu30Dn5/H8GBrwjyjrAuEl4ZxXHkS8dl3pBxI9yFed+YK/dw/F95MU9OK7jAAN0qJU6UmKKoEvnToHp07khHUAKgKGg4cOHy9veelG4J/0kCtREgWuvvUZ+98D9skFtSxyuYwUBOgN8H0gJcN5WmVIL7TonyfK8y1QqwEqYIClAk1DMABFp+d74XhAmAAgAurbCwL87BwU5VOCZqs995myqjFNMCMcSs82bNspJamI5GdCKCJeCiQK1oABfXsk7OpE/PviwrFy5QpcInhA6ttCJ5RgwBLAOrngHtH/Gj+Q9V1whV152mbzzpqlhr/ZiRPM88QEABgIWyi/fe7qcOnq0nDrxq/JczlBbsfvjuJCX9phILwABSAKwEcCznJNWBsSkSuEaKHDyoIHy1W98q4YU1V+irSGJou1hsniXAlH8/KEAlTX74dizV1cd7FXAEB16L4ausmmtvfnpLZvPN8M/XLeD64TJw+PcJy+UZPeEax7mnPpt1p01kX5879++GwBH9U+VriQKJAoUUqBJSASw4//II38O8+6MSpxhVyUGIw4fdVS9UvXMxZOWnpFJ3oVRj86T5q2qASz0yOMLlxTYTeCQKveTWiPtMElDjx7dg0LjM888KyNHjpCzzpwS9inIl5kCiQKHoMDll71VXjwCxUHPlmmCPdpQGX3jKjRMHECBg2k2fBuhq7EtTUcbJo5voVIB7YHwbfiyQvQF1CZBmBbI2rxPIXi5hb6VYYqCSBPCtAB127NbunfvLl/64ucLb0nniQKJArWgQJMAAnPnzg8jERTwmJt0ZhvTR/usvCNMp8NRG+fpyJfOLOwUqIADiYBuSCzNYyAQgIhZE/T7ipXheWmW0lmnCM4995y0PLAYoVJcrSjwsY9dLzNnTJe5b75Zq/SFiZgmYHKAdomrZGpAR+1+jp99My1z31huXwJ0AUDDfE8hnYNxWzVgn5kpC4bMi/y4ciBlsFIAEBDqpBKEdTpd9ta3JQXBImRLUYkCtaJAyQMBRjEzdCthAwEYQTEgUIw6jDJMwQkAYECA+9UOc5Zcw8RVKpM3Rp7rGKM0dIrs4sY8qqr+KSDw25uF0RPwgE4susUT5PLMn1oHqnVp27ZNMJta2/3msxxSKFFAZOCA/nLPr+6RT3/qMzL1+b8dEUlos0wVIA3A3DDnHOizeFwLBbowaQDxAV1NEEvHDlSY4iD38I0EEJHzSV+d4zsL0gj1Ce/HZoDWAUCwdesWufId75QPf/gD1d2e4hMFEgUOQYGSBwLYXZ83b652TD4KOZhx07n4YfSqeq6XizjrnJrrcJ97caFjK5IyjwMYFWnHh6TAOkMbJFUtu0gGuaiNmzYrIGhbbTnV35muJAqoZKlTJ/nsjTfKB44QCEBDZ/7M4cOM97Mnh/qYJ2aKwO1yhH0JFCzECrm2lbatGIhBgIOCIDXIvSjiwnfhgFzBA86MBpneADoLQ4ePSFMCOZolL1HgSClQ8kBg5syXg3LRCSeYSVQI5Yw7jDJylHNmDE+Pw6SpOlYBJKCxrPHMf+qJ55d/CT7ayUdUDXj6HH7I3x/yynV8fod3koyYyst3hHLpXJNLFDgSCkyZfLrcfd/98vWvffWwlxUWlhfAgH4HSABokwCDsCxXAQDbFx8ACHBo28XugK80CKP/HCAmT8719CDn3yLfmn5lAYSgZLhHlRQ3q/XNSWecKV/96lcOui9FJAokChweBUoaCCANeO65v+Ypkh9l5Jg3jDfMNdLRBK5so3ymCLRvyjNolKPyTsMoOlU2gxlbeq4FJq7X4lFN/p44QF5Rp+dgpCJnSc3qkeXn534TeyR00w2SkksUOFIKAAa+/o1vygfec+2RZpG/DwnBHoCAMnyWGsKoAQNICDgPQEDDMPv9OVDANQe4sZ/PNBcIAEC/F74BQAbTEsRtVDsaf3/j53Wa45OFt6TzRIFEgSOgQEkDgRdfnCYLFy4IHRNM25x1LHEn42EAAGE7BxzkFJg0PnPcbxIB4hgJ0VFxD46Ri3duIaLID+njI9yXi8vCBgbi21F03LIlAYGYJil8ZBQADHxFlxV+62t1M6KGUVfosB7rg3wLMH6+jeaABA3D/JtrGhv9m1ItUgKu4fhmYheYv+bD5kfkBwhAArFNgfA73nVNAgExsVI4UeAoKVDSQACmyTrjli1bBTLZ8iZjwkQYw7dz77zwAzuvwqzD7faTAwGmLJiLCkBAlZi0o2P7YN+5LbrroKDeYuUDHTiJHKd5oJAHMJaA6YjkEgXqggIfue6DMkL3JLjjjjvk0Yf/dNRZBuat3wCgAMYemH8OBAAAkBTgiHfDW4QLHfkEXYScj9SO6YBBgwfLRz/2CfnIdR8qvCWdJwokChwFBUoWCMCUZ8+eHVYLOH1g8gYGcsuPcqMNZ7oGDLjGOmgO1jsrMKjCqJEUkA8jGCyb2eiGOMrcu8csqHEfYtEy3WQlEyiY5EB/jdErkw/5a07UAYdn9QhoIH+uV0LnukN3VuM6HWtyiQJHS4HJukvhsGFDQpt6XG1t1JXLgwLNMEjItL3u01E9jN8lZgEsaDy+uwACct8lYAAJA8Di/IsvkZ//7KeeLPmJAokCdUiBkgUCzOtjic8V62CeMPb8GmQ6GO1o6IRQYiKMg8GWlaH8xPJAY/iVGSeXvU/8q1z7xJG+AV2LrRKK/WqHnfpQpmMMByPkTAcYfC3f490PF9JPokAdUoDVBD/9ya1yy60/lZu+/291mLNlFdoubV3bvKLlotsbx4WS3r8B4tu2ayef+MQn4iQpnCiQKFCHFChZIFBII1MARAyfMVcfebvvzDZ0REFfgFE4I/PC3I70HKUntd/uEgHN1wGI55ivgxYaSwcs3lMlP1Gg7inwmU/fIBMnTgh2N15++SV5/rlng0i+rkqiDeMqc0C3pnxbt2kjF731UrlCTXufeuoY6dG9W03J07VEgUSBo6BAkwECRiNnrrZ/OUwYCYCPzpEOeJxJBhD7Z3YCjoLOuVu1XB0RqXHWUKbrEngH6flrLfMgwEGKGTuqDLurbd9eLp06dfTkyU8UqDMKMFXAgfv9Hx6Sf7zxH+os70NlNGzkSBl08mDp27dvkORhMjhNgR2Kaul6osDRU6BJAQGmBYzpm1jeAQDM38MxMCCMrkA0yS+tzvuS/Pwzk+QEFJ70OlMITDngo8hnPmGLLytbIr/+5Cflx3P26FBI9QiwzJZbP+hLBgtfozP9DAS4XkKu3ppPcokC9U2Bd1z1dmGvi29/65syT/Vt6sMNHTFC2nfoIOecc56W1SNM1aFrw06bhQC5PspPeSYKJAqINCkggE4SnQzLkFqpRTTCSAHwOeh4OOfA5X2dJsjPDsDMNW1zTev6B8rz1dkonjxU5SDXiaHUp1rU+Zv1Xi17b1QGdxY6BwDkBUjB369TCig6ej0L70nniQL1QQE2ubrvvvvkzdlz5Omnn5GXXpohq1euDMv4yrdvP6wi+Z5g+j1791am31MGDjpZBg4cGDYMaqNTAZt1c7BgpEjbPDsKLl22XE4eNPCwykiJEwUSBQ6fAk0KCCg/De6A2iqnw4GR0zmhLAiDxdko3/ZThwlzvcxvJIGGg/SAcN4BAkyLH6aN882NAAiZrmHuXtUFJN/qHHlwUE4o6yBJRh5ZVJdFik8UqDMKdOzYQbA7wIHDUNfatetk+fIVctddd4U1/gsXzJdlixdXWyYraHqfeKL0HzhIunbtFnbQhPmzCoZ9QAizvNCn5jhfvXpNAgLVUjRdSBSoOwo0MSAAg0XMbtug+sibzsc7II9zJswoPOLk4f4gulclQmfWvA72HIgVEllWaNusVhXjW/kxCPBwxty9DmAKCwMIbPqCuJaIHJJLFDhOFGilDPukfn3DceYZk0MtMH/Ndt+Fju/qllt+LL9/4P6geLh7966wbfAJJ7QKbRtAzuifbwkg4NYDAemrVq0uzC6dJwokCtQDBUqWo2DqF/F/eXnGYKGf2QgwEft+3cIUCYADgTD613OXDji9m2dDeo1CXK9TCZVmCMVH75bWwAFpdMyveRvwyG53iQAgobhUIM7P60WdmRowKUaZtG/fzquW/ESBBkEB2mR17XLy5Mnyh98+EBRdMfBFu+Ybwwfowvw5b9UKINAyhAECW9WK4L59mCwu2W6qQby7VIlEgZK1SkPnccYZZ4TRRuFrdlsCdDJ79+4JDJaOCEbrpky9owrx+6NRfYUu/svZAIjTELZ5fGPaliYXl8ciquynZQIkMiafrWDwOGf6+HEZe/bsDSOnmqYVCp81nScKHG8KvP3ytwnbE/N9YVTI2nQm5bJvR/VuNA0H4BxH+g26r0ByiQKJAvVLgZIFApCtc+dOOcuCeU4cqMmou3AFgTNhGLgzeh+xII7POw1zrxkbQovf0sf3kb+J8nNTEdHN8X0H3+v5MVJy6UFWHzpM5k4TEMgTNAUaAQXQATj7Leer1c09sqO8XHbrVIABcFPSBXwzPQAAQIqH79K5qdNmBODQCB4zVTFRoNFSoKSBwCRdD929e48wii58Q0G8r1MDjDqYIvBRSRi1hDjrpEK8Mvu807l6AIKP/mH4DiI8D/M93gwYhfsBCNG9no+N/D29+1a+pTFpBWJVAEcCAvm3kQKNgAIw9tNOGx++Qxg+IMC+mUwy5m077Fyo6bkHJd5Vq1YFM8ON4DFTFRMFGi0FShoItNaRCNMDMPdijhE5IIApAgMExnxjMBAYsTLfvKtURq0jc2fi1qHZ+n7ys/isgwuj/uzmYFnQ7iFNscNAhufjdaGOdKJdunTJ55YCiQKNhQKM9HEsn90Xvh/7RlwnxsEzdjiYHsABBmj/b745J5ynn0SBRIH6oUBJAwFINm7c2CBuLCSfGe1B7F4ZOhsHAsakbW7eR/gH1BBAfnZAJQAZc0aS4CN4fOvcfGrBO7dYWdC3VfVyivncB+P38ikP8Wnbtm1l0MD+hY+SzhMFGjwFBg4cEOrILoK7dMngnt2Zbg7fwG7iFejikATgkHwBCtLqgUCO9JMoUG8UKHl13H59+8iJJ/bRNcmrlIi+VM/oCRMvK7PRPoyW0QmuUPReEU0NVCIRQLyvaS09RohYjthcOzDsD1g8eRDPBkYZEFCJgTL5/SwZqMaZfoFNJ9iUgQECLK0BaryTrOb2FJ0o0CAp0FuNCCH236/fDrYD9uzZHYAuIJc2zfcHGEAHxqUHSARat24t69evD1NinCeXKJAoUPcUKHkgQOcxduxYWblyhTLlg/c+h3E3062CGc2z7M9HIQ4KIHmzgZfJl77yjnCNTqsSZq75koaDMiw9YcowcIB54srKE+WSb9wub80tF1Q7htoBFgcCXibTCSgV4pv0YW9Qejzl5EFUJ7lEgUZHgWFDh8gJytRRFoTpI/ECUMdKtrR1pGAABr5Dvgd8JAU7duyUDh3aN7rnThVOFGgMFGgSEHvEiGGBodr6/oNfCwzXxfB0UiguuTiec48zkb2J6T29MWpTOHRdgywOpl91msGuebzpA5DGpwK4Tt5W7p7QCW7btl2VHtPuawe/uRTTWCiApc1LLr0sMHemBzAstG8fSwmtvdPmkQhwOBjn2Zga4JtYo5YMk0sUSBSoHwo0CSAw+JSTpX//AaFDqY6MMOO9e/cFEOAdUiEg4JwjY9SMbGzlgd9rDJw4G/XgE+cgwQCE3eP3mm/pPB/K2bVrt2xXe+6MjE4dO7q6qqf4RIEGTwEY+sc+dr1gapi2vVOnB/aqXQz/HpAOMPLnQBrmUgFAAbox69YlINDgX3KqYKOlQJMAAojuL7rowpz4v+Z3Feb/o1GKdVQmxiRs180vDLuSoMfbvSb+JM7iTQrg5+6b5MCkBwYMbCVDuYpSTz11bJg7rbnm6WqiQMOmwJDBp8honaZjCS06LyYVMIkA3wHtHhAOaMYEMSCAg+m4FStWhmmEhv2EqXaJAo2TAiWvI+CvhV3UGFnfc889GlXzHD0dEboDTCX4vD35MKqB2RNH58Q5Pp0YPtcAHfh0YCgicq5BPcxIinVu5BbXAeNBZkCIMimfPFGqGjp0qIzUqY3kEgUaOwX4XiZPOVNmvfRS2HfAJGUZEOC7AQgQ365du/B9+fe3cePGsNkRS4KTSxRIFKhbCjQZIADZzj7rDHnttddl1qxXckp9xYlJ5wMjxqSvAQJlzxpHR8aBo9MiTDp8rh8MBDLmb4DARjjeuZEPwMDvdd+nDBChTlajSF4m6ZNLFGjMFGjf3hT+WD0Dw+eb4Rvytk8YSRr2BPhmcHwjfAPoyrTukYBAY37/qe4NkwJNYmogJv21174rBwLylgHiy/mwdUwmroQhc/i+BHRghYddN50BrsHM8enUPBz7zuyL5cOoiBHQ8OHDk6Z0/o2kQClQYPz406RMmTrtv1z1XzA37N8CIIAwegKAADYhwgEEcH/+81+CVCCcpJ9EgUSBOqNAk5IIQLVuXbsGpaXbbrv9kEQ0aQCdExIBVhYwFWCjF0YoftBp+RQBYeLxOWwqgGmCLOwFAzZwjIp8ZARwoCOcOHGCnH32mZ40+YkCJUGBiRPGB+W/AAIU8AKgW+sHRrsHCHAAhNGZadHClhHy4Hxf6Mts2rhJevfuVRK0SA+RKNBQKNDkJAIQfsL4cXLxxRdrh7PzkO8BMODiSqYKMIRCR8XhUoB4VO9x+H4UXvd4fNeURnkKnYAtW7ao4aBT5YLzzxP2fU8uUaCUKIDI/+prrg2PFMwNhyWE6OSYUi0XAAUcGOgCVOPw+ebmzlsQztNPokCiQN1RoEkCAch3ycUXyKBBp2jnglnTQ08ThD0DtLOyZYY2TcBUAUwecaYzezowF3W6z7WY+XvaOI7wtm3bwr2nnXZq3b3hlFOiQAOiAJKxSZMmheWB7EbI1ADgmm/FJQKE+R4wzoUkwB3LCFesWKFpMf6VXKJAokBdUaCZiqdr5oJ1VVIDzIeOZ87ceXL33b+SzZs3qRi/drgI4ygm8rcpAUYrdFiMYOi8OOd6PB1AOHZMBUB66kDHxzkbJJ111hTp3KlTnDSFEwVKjgLXfeR6+dszT0v3nj2lhx59+vbTbcO7BJPCMPw+ffpIjx49ghQAaZlLCbZu3SrvetfV0v+kfiVHk/RAiQLHiwIZ3D5eNTiO5cKwR40cIR/96Efk29/+duiEmjc/NElMdwD8xNw++xWUaUcF8zf9AEBBDAQoJ3YGAsyEMCOf8vLt8rnPfU5GDB8aJ0vhRIGSpQDLA3FIBZCQuTTApwgAx+jl8C05iOab4lsifXKJAokCdUeBQ3O9uiurweY0ZPDJ8v3vf0+mTZshzz77rIrot+ZG81VH8cUeAFBA58WUAZICJAJYEzSJAZIDy4NznEkBbHdB5ksnTZqsioHjZfiwBAKK0TfFlSYFhgwZKn+pfChMAezSET+Mn6NlS7PLgT4AVjbZdMglbHxDJ6gdge3by0uTKOmpEgWOEwWa9NRAMZqv37BRnnjiqWBrYO3aNdoRtdFksfGfYndVjXOmn+P9VS4yEUP8uHGnhVUBCQBUIU86aSIUYEruyssvD0/buXNnOUWBQddu3XVFQRtp376DdOzYUfr27StddZUPqwUwtY0kjSmCobqB0TlnpxU1TaSppMc8BhQ49JD3GFSiIRXRo3s3ee97rpF/+qcvyhS1gmYiy8NTTmLUz2HSAvMZ7TDXuXNnuU5FfFQ+/rGPJClAQ3rxqS7HlAIA4ClnnR225Wa1DBIANiBCCuAKt3wvSNswN+z6NkgHVq1aHUDBMa1wKixRoIQpkKYGqnm5XXSU8slPXC9rr7pCXnxxmsydO1c2bNgQlvjRYdXWdezYKSg9DRkyWIYNGyY9e/aQ7t261vb2lC5RoGQpMGrU6KAwCEj2lQNsNgQQYPSP/gzAwIEAcQCCzZs3yz5Nc0KrViVLm/RgiQLHkgIJCByC2r2UcV91JSJME2MuWbosmDp9+ulnwpymTwN4NkgC6Mze8pbzgp8UAJ0yyU8UqEoBNzfMJkT7IoVBk6bZNAAgASCAJACAgAMQvP76m8EeSNUc01miQKLAkVAgAYHDpNrAAf3DHWPHjDrMO1PyRIFEgZgC55xztvz3D1uFVQA2PbArgGeYP1NyrA7A4BYKg4BrJAQAb1YSLFq0WE4bNzZICOI8UzhRIFHg8CmQdAQOn2bpjkSBRIE6oMCI4cOkVW43QVYO7N5lhoUKgQDnrXQawJcRAgqWL18uM2a+XAe1SFkkCiQKJCCQ2kCiQKLAcaEAy2evvPqdoWzE/ujeYHbYbQkwBQAI4BogwIEAUgEOJATJJQokChw9BRIQOHoaphwSBRIFjoACMPZ3v/saad2mTQAArBLYo2a7DRRkCoO+G6Eb6qIorA/Onj0nrzdwBMWnWxIFEgVyFEhAIDWFRIFEgeNGgZEjhst5F1wYRv471V4Aew+gGwAYiPUEUCD06QEABKCAJYcb1O5HcokCiQJHR4EEBI6OfunuRIFEgaOgAAydZYQwelsumIEApgY4AAb4pOXAORhYvGTpUZSebk0USBSAAgkIpHaQKJAocFwpwCZCbXXvgbBKQKcH2H/AdQNcKgBIwPwwQAAQgI4AEoJt27Yf17qnwhMFSoECCQiUwltMz5Ao0Igp0LtXT+k/cGBg/ugDsL23W/TEZ5oAkMCGYIABHGAA2wJbtmxpxE+eqp4o0DAokIBAw3gPqRaJAk2aAif26SsYFmIZIWCAjbv27TM9AaQDvhVxq1YnVNmEiG2JN27a1KRplx4+UeBoKZCAwNFSMN2fKJAocNQUOO208SEPRv4oAQIEWE6IRAD9ANMf2FNFT4DpAdzmzUkqEAiRfhIFjpACCQgcIeHSbYkCiQJ1RwE3N1wJ0w8bEBkAcIVBpgeQEFRW2n4DlAwQQMlw69ZtdVeRlFOiQBOkQAICTfClp0dOFGhoFBg//rRQJRg7Swh9E6LCZYSAAV85ABBAT2DOnLlBctDQninVJ1GgsVAgAYHG8qZSPRMFSpgCI0cMk3ETJoQnZBrA9AT2qRSA6QGkAftCHPG+coDEhNkVdPWatSVMnfRoiQL1S4EEBOqXvin3RIFEgVpQgJH9BRdeHFIe0GkATA27NODAAbMnABjgQBLAqgGcTw8gKUguUSBR4MgokIDAkdEt3ZUokChQxxQ488wzgrnhA6onwOoB7AkABhwQIClAkRAdQTYeAgRwYG545cqVdVyblF2iQNOhQAICTeddpydNFGjQFBgzeqS8893XCgqDAQiEfQdMMoDSINIAgEBFRWUAAkgRcEwPLFu2vEE/W6pcokBDpkACAg357aS6JQo0IQrA0MePnyDNVOzP6H+PLiV0g0K+jJDlhYRbtWqZtyfANIHbGWhC5EqPmihQZxRIQKDOSJkyShRIFDhaCrz1kgulQ4cOYQkhywhh/D41AAAIAEFBAqDBpwcok/g3Z8892uLT/YkCTZICCQg0ydeeHjpRoGFSgPn+8adPkv05K4P7ggQg0xNwMNCsWVkAAkgDOAAG6AlwPblEgUSBw6NAAgKHR6+UOlEgUaCeKYCVQcwNI+5HJ4C9B2KpAHEwfCQC6AmgMEh4/vwFaRlhPb+blH1pUiABgdJ8r+mpEgUaLQUmTszZE1CGv2sXqwfYd8DMDbtEADAACAAA4Hw54csvzwomiRvtw6eKJwocBwokIHAciJ6KTBRIFKieAp07dwoXsSfA3P9+NSiEUSFWDmB5EDCA7oBIZV4iwA2tW7eWxYsX6/WKcH/6SRRIFKgdBRIQqB2dUqpEgUSBY0SBTh07SnOd80dPIJgb3l3VngAgwI59QTeAajE94LoCWB9MLlEgUaD2FEhAoPa0SikTBRIFjgEFunXrJmNOPdX0BHbsUD0BtiV2c8MHQhhmz/QASoKuJ0AYacH28vJjUMtURKJA6VAgAYHSeZfpSRIFSoICLVu2yJsbDkaElOm7hUF835aYaQOcAwEPb9++PcSnn0SBRIHaUSABgdrRKaVKFEgUOIYUeOfVV6nRoFY2+s+ZG2a077oCTA0ABCoqWD3QItSMqQHuWbt2/TGsaSoqUaDxUyABgcb/DtMTJAqUHAV69Oguo8eNC9MDMHxbQphtRIRkICgSqt+iRbbvANMDq1evLjl6pAdKFKhPCiQgUJ/UTXknCiQKHBEFYOgnnTQg3BsUA1VHwKcHTDJgVgb37jWFQV8+iNJgueoIpN0Ij4js6aYmSoEEBJroi0+PnSjQ0Clw+umnhyoGPQGmB3Q6gLDrCXCO0iAgwO0JAASInztvfkN/vFS/RIEGQ4EEBBrMq0gVSRRIFIgpMGjQwHCKlcEdunrAzA2jJ5AdTA8o76+yjBBQ8OKLU8OqgpBB+kkUSBSokQIJCNRInnQxUSBR4HhRYOyYUTJq7KmheOwJmLlhNiHKrAwSt3+/mRtGGoBjFQHmiddv2BjO00+iQKJAzRRIQOD/t/cmcHYd1Z3/6UWtfd9lS25LsmUt3i2MjXezeGMJEJJg1pkkkPCf+fNPZpL8Z/7/mQSS+RDCBCZDQggQ4kDYDDbG2BiDZBsveN9lW7IlS9a+72tvc7513nnvvtev1Yu61e+9PmXfrrp1a7u/erq/U6dOVR0fn3gaCAQCg4QABxC947rrU+0QPtsNcyIh0wOsHkAzwDSA7yfg0wNuL/D88y/GdsOD1HdRbXUhEIJAdfVXtDYQGFIIvPWt18hY3WmQ6QFI37QB7UkLkN1uuL6+Lr+fAJoBthteu3ZtCAJD6tcSL9tXBEIQ6CtykS8QCAQGHIHm5tNk8dnnKPG3yiFdDYBNQEvLsUTwaASIRyPQ3t6RDAZdG8D0AILDxk2xlHDAOykqqHoEQhCo+i6MFwgEaheB4bpB0PU33JgOG0IIOKxz/0wN2PRAWxIIfD8BpgZYdohGAEEArcC2bbG5UO3+OuLN+guBEAT6C8koJxAIBAYEgdmzZ6dysQ/ACNCWEBY2F2LkT1xjI8cSmyBABnYZXLt23YC0KQoNBGoJgRAEaqk3410CgRpEYMmShTJu/Pj8aYS2y6AdPpQ1GKyvb8jvMsgUARdCQrhAIBA4PgIhCBwfn3gaCAQCg4zA5EmT5MI3XVzYbvjosdyqAVs5gJ0A0wOcO4AWAAGA6QEuDArDBQKBwPERCEHg+PjE00AgEKgABMaOHZta0aakj7Gg7y6IRgCyt+mCNhUCTAAgMYKArTRorYA3iCYEApWLQAgClds30bJAIBDIIfAm1QjgIPyDudUDTvIIBWw1jP0A5O/7Cbgg8MSTT+dKCS8QCATKIRCCQDlUIi4QCAQqCoFzzz07T/BMA5idQGteM+DTA2Y0aMcSu1Dwyisr5YjmCRcIBALlEQhBoDwuERsIBAIVhMAZ8+fLcF0OiDumpN6a210Qu4D29va0y6BND7TmNxYiLfYCaAsQCsIFAoFAeQTqdH4trGnKYxOxgUAgUEEI7N27T6664op0ANGMmTNlytSpek2TSZMmy5gxY2T06NEaniQzZsxIaRAAEA6YMuBo4iuuuDwJBAgFXAgQ06ZNk3HjxqT7SRMnVtDbRlMCgZOHQGgETh7WUVMgEAgEAoFAIFBxCNhkWsU1KxoUCAQCgUAxAqNHj5J3v/f98u1/+WfhNEIzFixsLOR7Chw6dFD27t0r69evz20/3J6mCO644w71G9LKAnx3KEWZQmhubpbFixfJ/PlzZeKECf44/ECg5hGIqYGa7+J4wUCgdhC4+2f3yn/8w0/KiJEjZer06TLrlFNlypSpMlLvzQ6gQ1X+NtvJNsNsOezbDkP2frnNAPfuECRwrDqYMmWKTFBhYPHihXLKKbNkxPDhniz8QKDmEAhBoOa6NF4oEKhtBN75znfJ9m3bZNr0GTJ5ymQVAkbrRkLDlMCbkqEg2ww3NDTmSd/J333QQUjAub2ACwYpMvMHOwPsD+bMmS0XXni+zFLbhHCBQK0hEFMDtdaj8T6BQA0jsG37Djmt+XSZPmNmIvPGxmEyfHhT2loYcrcLQYApANthMBvOxgGT33cFGUIAmoJVq16VN95YL9dd93aZN/f0rpJHfCBQlQiERqAquy0aHQgMLQRe18ODfvCDH8qKFS+mUTxTAaj87cRBO3WQe4gdH/LHmWDQkPI46eN7mDQedu0Ace58URW+2yAgHCxZslguuOA84XTEcIFAtSMQgkC192C0PxCocQSefuZZ+Ys//wsZo9sMMwXQ1DQ8nSkAyfvRw0b+JgiUkn+W+LNhiJ+0xLnraoqA5wgDLDnEZ8qApYfve997wn7AwQu/ahEIQaBquy4aHgjUNgIHDx6Ue3+xXG6//TY5dPCAjB03Lk0BYAuAQGCnDZpWAEJ3jQDEzj2kXhrm3uM97OTvPvHlHEKAO7QDCAOnnTZHrr3mat2LwM5C8OfhBwLVhEAIAtXUW9HWQGCIIPDkU8/Id77zXXnxheeUZMepNmBckRbADQMbGpgKGJafAnDix3ei91F/VgDwZ8RlBQAPu18O7qxmgO2OcUuWLJHzzzsnBIJygEVcxSMQxoIV30XRwEBgaCHwxvoN8pGbPyhzdF3/eF3Cx1SAkzm+hW20b/sCmAagO3L35/hcOBcEsn423sP4CABcONpAeLguK0RT8Nxzz6X7q668LD2PP4FANSFQXgdWTW8QbQ0EAoGaQuDuu++RibpV8IgRI2VYbrRv5F1YCYAAoIP5PJEDgJP58cLlgPJ8+J7XhQaPy8YjBHgeFyowXnzppZdk1+7d5aqIuECgohGIqYGK7p5oXCAwdBB47PEnZdmy5XLXnXfIpMmT06ZBw4ePSPYATAX4FAAGglyQcHZqwEm5Kx/yNm2C2QlkyRyU/d59R577UufaATcexOcERPz58+fJ0qUXyoTx40uzxb0icEzPf+DQqEOHj6SdHxu0HxPmOS0NIHE/bqyeAaFxsTJj4H82MTUw8BhHDYFAINANAo8+9oTc/FsfSAaB0/TQoLQaQDcFMgNA3x/AiL++nnl9J+6CLYATOD7CQPa+XJgmEe9+Nk2KzDz3e/c9H4IF5O/3hNlzgAOS3q8rCsIZApD/dt0Dgr0Yjhw5kg6DcoEODG3VBwpq7zuRTZtY2lmnmqERMmrUKJk5Y3oS5ALT/kcgBIH+xzRKDAQCgV4icMsttyQhwFYG6DJAJYd0JdKHrCF/n8n0eyPx0qqclEvju7rPpi8XJi4b73YClEcYocPj8Jt0b4FtuvPhKytXyVkLzuyq2iERv1KFom3btqfTH+lDyJ8VH0ylZAUApnq4Ry4zIc77OqGcTpBc8/o6FQqG6ymTo9JZENk+GRJgDuBLhiAwgOBG0YFAINA9Av/6re/Ifb+4VyaoXcAwJVEIwS8TAIyIIQmEgSwxQxrussQAIfu9+56uKz+bzsP4HvZ8fo+PBsDr4p52E4d/xx13yr6rr5I36TTBUHJHjx2TLVu2qs3Ey7Jv334Zm/Z/sCWfjPzt8j72TaCy9h+uGTBBz/EGZ7DdtWt3Kneqbi+NtgCsw50YAiEInBh+kTsQCAROAIE7f3q3/M/Pf06G6wcdC3yb+1eSSMaALgCgLvbRv1ntQw76f945WeQjehCwMorJpjRbabncQ0juss+9PIQTyIkdCB966OF0TsGM6dM8S037+/cfkPsfeFB27tyZ+nO82kmgIYH86VtwcUHAtQCNjWZ8ybMshh7O9jPgkY59HLaqpoHfzLSpU7XsoLIT+WEFeieCXuQNBAKBPiPw4oqX5bN//t/lwP79MlGNA5kK8I9/nwvtRUavy7UKfk8R2bAXSZw/w3dNgAsG2TyUCfHx7Ne/fkx+4z3vTHlr9Q+bKz319LO6BfRLaT4fLYBPA5gQYNs+Q/oYeBrpu82H2XmAGRjiu+Cn4l4yGAQ3x7++vkMFRdUaKL6tKhBs2LhJd3ds0p0ep6ZyaxXjgXyvEAQGEt0oOxAIBLpE4Bvf+Ibs3LEjCQCQBR/3LAmQ0T/+XRbSxYOe5nPi8bqov9Q50ZfGk5dn5EFl7WVlw4yG33jjDdm+Y6egyq5V94NbbxN2gmTzJ0bpvLdpd4zsTROA+t8upngQCPDBz7GzsPZ7TgDweHxczlPcc4KY5m1EQ6D4b9q8RWafekqtQjyg79X5Vz+g1UXhgUAgEAiI7Ny1Sx558FcJCj7kOD72hQ++hbNxKVHJHydp93lMuPS+JFsaOToB8Ywwlzu/9zTeLn9+PD/bZs/3mK6KQECoNcfqiOX3PZCmAgoGgKj/beRvxG9ED70z0ucCF8MYgs/2tSHkGHoaBADPZ3mxx8gdMIXdgf6GwJffVUtLa63BPODvExqBAYc4KggEAoFSBP7mb/5WdmzfnrQBDWgDmBYoIWMf/ZE3S+x+39FRPF9PGifeQprCfD5x7iAYU103JULyfO57fZAL89Hc++VlZH3yeR4vgzrIzwj5lVde0W2IF0mznk1QK+65518QNn/CYA9NgNsC+H4PJgQY4dO/4GHGnqYNKAgALojZqL8eg9Dcb8HJH8wcV/ctDo2MYo92QfMcOXJUVyhsTns4jB8/rlagHvD3CEFgwCGOCgKBQCCLwOo1r8tdP/lxPooPu438bESePvQ5KSBLvsrF6owsnHS9EE/n8fhOGP7M0xLvF1MSEBlkgqMdWcfo8siRw7pZUFsSCLLPjhf28t1HGFi/fkPNCAIIOLfffodM0C2gwQ+hCrL3y/qz0K/g4KTumNDFFu8agyQaEJn7PVg/gXM+T0574NireCYddSakaVemdEwx7d6zJ537QL5w3SMQgkD3GEWKQCAQ6CcEIJB/+Zdb9DTBg6lEJ4LuikcIKP2mlyN9ynEhAI3ByNlnywVzpskpSxbIrBFZkj8i21evk517tsqG3a25PQt4XkwcEBvumC6J44AhtAPuvH6/L+d7WyDGrVu3lUtSlXF33f3zhLOP9Hk/wk7Y4Ohh8+01S/uwFO9sHgcmH5cRAohzbFUWSMUQx3QBjvaw3fNkXZIarnsEQhDoHqNIEQgEAv2EAAcK3XbrD/Kl1WeYwYk1+cr8kL/HkcHuWbfPZZv48BzhwonBwk0y9aw3y6WXnC9nTBqWr6s4MEKmzlsgU2WBnNWyV9avWi2bDhZ2CPS0XjbL0xjRHtZtcV0Y8Dppg1+ez33ScEFM69evr3qjQd7zJ3feLQ8++KBMmTIlLQV0YYB3dmHANSy8e8FZ2KOKnyXRoZD0OCHP5z5JFWVlf0m/BYSBJtVQsJSR38yUySEMHAfO9CgEge4QiueBQCDQbwjceeddckSXmrnjY+6Xkyn3Hi71+eTzccfxTP+mcOHPGDn9HR+Q9587BV7omRs2XmYvPkcmbV4vb+w5plUUCAvSpz0sj2MagQvhoHO7uq6K/AgCuB/+8Db5+Mc/osvdhnedoYKfvL52ndx333KZPHlK3ibABQHe0fvSXsFxxM+Gj/+CVg7dUPhtQPR+T27C7gjTH2rumYQBwtidjNAECAMIBhN1CiNc1wiEINA1NvEkEAgE+hmBNWtWH7dEJ1n/uBcSG+FnCdjSWAriRcbJ4vd9WN595phCtvbd8trTr8qmDS/L8xsPJ0Jm3/oxk0+XRQvnS/Pc6TIqcUqjjJ45W2bXbZItB3WqIEfcCAJNTS1JC4AhGo56aSfO6k3Boj/l4imTffbJX63ucT0YqkHPgPCRP+/i71Pwi9+uHBbFKTrfebn4GA/iCuVTp+VJ3Z57Rj0IDPyPRqJd8Wb1woEDB0MQMLi6/BuCQJfQxINAIBDoTwQg1XVrXy8qkvXfuGJ1u92zwRAjfhcObEqgodNonOd1dQ0yctHV8va8ENAuhzc8KT+981HZcNTIykespG85sElWvrBLtm45Xc6+cJFMSfYDjTJm6kQZc3S3tOTmuyEX0kMsnC7odgLe3tR4WpljJPzSsN9DZGgWHnnkUbnqysvzxOZlVLr/wK8ezmsDEkHnNAC0O0vSpe/hz4g3fEpT2L0ip+UUtAqpjtw+A6TIkj9w+72X5vVQR8qLIKD9eFiFL+wFJk2c6EnDL0Ggx9qzknxxGwgEAoFArxB46OFH5bmnny7Kg6rdyEEJVwWFPOlnBAAykKa93efiO6vmO0YtlhvefqaMTKWrELD+Qfne9x+SdYeK02Yrh8yPHtiiAsEa2dNqGgdpGC3jR3Ukwm/RE/NIgwDBKNiXG2YJx9vmvr+L32frI0wZTz75VF7wKX1eqfdb1NDx3/7t22kpJO/gQhVYOB7l2l7Ao0Nan/hf8v4bbpCbrnuHvPsLj0oLbF4ytUO5jOIbwTtNxbDskKmV1fKvv3WRnLN4iZx70X+TB3NbBZQKA7QBrYAJAupreSxr3KEbOnEGQrjyCIQgUB6XiA0EAoF+RABCePzxxzuVyCgbskUAaNc0Rvga1vsO4pT888KBGgm2t9ua/pSeNMlwsE7GLD5XzhyV+5y1b5CHf/KkbGuzvIX8Haku6uPyuloObZHX1u/PUVK9jBjVJK06DYBhoF2HddWArxgwgSFbJi/lhIfv9ymQecY9RMcKhB07d/njqvCXL78/TQeUmxLIvoD1h8cUY+HY5J/q4yxuEDgOH2Ggqcl2KMzvUpibDkgpcgJIDm4vspPvgsqwYU2yWw8rClcegZgaKI9LxAYCgUA/IsBo7Nu3fLNTiWgBEhlA+h5WSs4SBKNGvzetgBEIhXFfXz9BFi2akTMObJeDz/1antyny/yUdN15fu4hYhxCiI9AD2xeJ6sbdE182wG17D8k7apS9lEv6dEOYCPAfgLuKBPnZbtfGuf3+JSJEPHGG+ulWg4iAqcnn8Q2gOWB5THt/O4FXOz9+ZtxGQbP5gUfd2gCqNOc7lFQIgggdKARyBTlWfM+5bEyBcHicM7GI/8wAnkEQhDIQxGBQCAQGCgE+CCzqQ4HDJW6vACgX/RECoz002i/IAA4WdiHHwLOPBt7hiye7Vb4+2TVy5ukTcuq0zIgEvLi8CFh4vAhd+b8UXV3dGyTta/quQfaTqYBIA4LW1rXIvh0gbfH/VRB5o/X6fX6PT44/PKXy2TNmtftfTWOeL+oC+GD+q+44jJti32meZ4tj3QctDPQc9/s4X/o0MF8OzKvmW9zoV321NqaZ+6idLkU6tk7233h7/GmGiyVlqvY1OlGQgiC7hw/vy/1W1tb9D0OpUORSp8N9fsQBIb6LyDePxA4CQhs1BPi9u/b16km/3hjNAg5M/o0olY1vk4DNCjZYf3NM4jRVM+kNZJBMJApU2WyDyTb98q2bUc1nVVFPhx5CUMyECgOgsWKnzYgEDjxUz+CAKNffBxpyEcZXF6GP3Pf3yd7T3qPd5+VCwcOsM69QO6ex33yLVt2X6c02fIQKljPv3jxIt1Wd5y0KH6UaVMq1l7qQr3udXv5GqHTMbxPR8KiqclOS8w1KV/vmjVr5fzzL0gYgQ07CVIveHHQkJdr9dp0DSRvbTC8ErkXOJuqE44d2h+en3a5c5W+33fyvZH6wPMnX+vFEaYMfi/uuN+2fYecNmd2eubx4eu/hQAhEAgEAoGBRmDLlq15lXxpXclOQAkMck3EnyNa1n876XqYvG1tCAU20ifcNHpUzkhQHx7aKVv3KxnqKgIc+SEAfIgrS+A8N7LoSNoBwhAdPmn9Ih3E4s6JJxufjSuNzxK3l0PZHNLj9152b3zPi0Dx4osr5C1veXPaVtfj3S+0p7AHg9fjafCPHWvhRf1Rvm1nLThDFi5ckPAgHe9DOoQIjPBW6HHS4Moze25pUO1TnGOfLzgFTADRfaHyeYqeax907Tq3kbRae8pCG9J9zifsfYrgwsoNhKNwBQRCEChgEaFAIBAYIAT4EB/POcHkSZPPeo5YnFw4h96cP+MDDyF5vD49clB0g0DpyKWlXvJn/URkmtTjs888DqIm3p9Rr7XDRphehsfj40jjzt/F4/0ZPlMMCB0e53lK7z2+nE9aLjQb+3XKZdWq1+SiCy9IxJvKOT7keeLMlp2tPxv2NMSBjbvm006TMWPGyMMP/zq1hed2kcLD5usDz8ajlM7T+M/D63TsCxlKQvl6rEzPV6ifOk0I8ZyUieC4a/eeEAQclJwfgkAJIHEbCAQCJx8BRpRuvAdJMm/frnP1jDrrUMkrabJiAGcfdMJGSHzwjQ54qgSgI1boGsJywoYgIF7us/HUiXPi5znl+70TEj7PfORLHicfwlnnZER6Lr/HL3efzdtdmHa487Zxj6p+06bNcnjxkbRrYTadp++t39X7ZcshDUaP0/XaqSsh/J3xaSqqeaZxwK3OZCjLnsMC48ucCUSa1uAh2p9hbdr32l/eD8QX+pg7ylai1/K9nVk/PdM2kCj9R4Q6ysb+grT9gVEqtAb+hCBQA50YrxAIVDMCfJQhjjamB5S8k6/EAXnUtyqb6FeqnnAaiTqxQsq8tZJM7iOfMJg4RabWt8tmXTqII48TBOVlhQHucVlSyE4NQBRZIkqJc+k97D5leD1Ohjwjzu/xPR1hBB7P4+W4nyWpbNif45fGQ3BME7DPvrvSNB5/PN/zuN9dWkbZ8+fPS4II+KV+U9zJj50AWhvT5mSpPCck6fSB23tQjq7lkI4jhiX3EDcbS9XVtSrpe0tymKq4B47uHEt+Do654V/oA+w+0J4Q35P387Jr3Q9BoNZ7ON4vEKgCBHzlAEaDEIl9yPGVBCBQvYhj3hmfj7jNQauB4eatskuWyDTes26kjBqpwsMB+/inKE3rH30royAccO8O0qdu0jqpWD1Gatmysvk8v5FOYYRKPOmI9/Ky9/6eXq6X4/V7m7PxHi71PS2j8okTJ6R6s2n8ucd1uleByp231e/xS9NnnxFGg0Oa7PtZmPc3sq8rMLlKSAhJ9KlZ/yMsEGkYMnXSmspraMNwk/4uFgQg+yyu3OM8jrr1pkgbYCl4l8LUhscNdT8EgaH+C4j3DwQqAAFU9K6mh1QIM/fNB71OB+5tDUrQbU7Iph3ITxXo8ratquGfxtdM9xSYNkWnAPa16AffSN5JDB+yTySRe2cnL80oo+YskfNni2x47iXZcNgEAp6XEqOXVxqfhdFI0InNhBuInzw8QxvAioX0flqHl+llcF8ax7PSuOw9ZbOv/tGjqvqGCLUMd9l0XcV1lyZTnBeRb8+oUSPTygTekcs1KfZ+ObLPkTWZjy37rHxgWb6YXgZU+Gs5Jq2NYFkQ+CjE+yQtP02ChWsHLK2mSL8ttCesfghnCIQgEL+EQCAQGHQE+IC3Kjni+Eiz3M0IhTl8PeRGiY2Pu8XZnDNq6LScsGWdvPbGUTl7LnsJjJezlpwq8tpr0q4jP8iLI4shJMjJicLvKY9yRMbKmRdfIm86pUnetPQS2firW+VHz+1N6bMEmS1DMxU5yvaLB4Sph8vjCVMn96xpz7psPdkwafy+1M/mp8wWJUhfEunPSvP4fbbc0rSFew9pGzJag2wZpKBufy9/Z+7bdERfr1M1+towcqGwEwoprjptoDoCE3hy9WeLTLoAFTwK2NMHtANpxPopm36oh0MQGOq/gHj/QOAkIDBhwvhE7pB8V45RMisA0ASQzg4dMpKBgHGN+hwS4oJ8SNvWtk2efnaDvHvuPB3X18vYi94u1z66Vu7dbIaAzDujDiY9Vza/E1r9aRckISBV0r5NVr2yS8tNd/n03EEsnseeFv/1OrK+EyO+kWNb0gjs3bs3X1a2TA+X+tREnMf7vftmZNkke/fuK5OuIExA6Z7H/HSbL7dz+Z7e0hXntWe8r2t0eEfvL+IoLxkE9pscoIalKvDQPVptWeeY0y4PY3OAFslsEcpmG7KRIQgM2a6PFw8ETh4C8+bOlbHjxsnOHTuOWym2ApBHMhhUP60WyM3dYzjWpvME9TpFgFEhA3lIR3UIsvP+e+Wxt31CLhmrAkP9LLnqt66UF770C9mcNORMCUDCxhqQFOQESeDaZYZcfu1CGZ27O7z6RXl5v9onaBqcEyO+5/O4lCD3B8LBZYWAYiIytTltPnLkcFrPTnqq8bK5h6i5xwbCXKEdXm/Bt/T8NW1FezKGs3yFcovLt6dO1oWyvB6eW9jTpJhccyx9QSDhnj5DECG9Ey950LZw39am6TOs3XTlf5avf+pNMlyfk4eLtLyzb+Tk9RBXX79OfvCJT8o/reQoaC1PVxu05fGhpmJHnd4PLgC4EAD+3vfFuYbuXQgCQ7fv480DgZOGALsEsntfd44PdBICcqPnVv1oc4IcBmOJaJV0nFyNKHIq/9ZX5Ce3PS/nfPS8ROj106+U3/2EyHe+pVv5HoagIRsb0dMG8lJO/dh5ctV7b5RLp+Qs7du3y7OPvCoH9VmO91I6q8tI3vNSTimh+D0+V5aQLGzvgfoerYeXi5+9vI0e58Rs9wWCJ544SG78+AmJjH1kTrw/T0HucvUQX6jD4lOE/smSv6fB93grl5hCHJb4vlEP78lFOtcOpHpVLZ8dwPMMYYtnhhf56CcTHEwAQJNjm0hZjfbXjEe9h7JPLMwUQJo2IrPWarYEFkfbwhUjEIJAMR5xFwgEAgOAwHCd8//QRz8u//jlv+u2dFYOYC/QAnPnXCIhJQy1D5OWOrMlgDxsagDDvhbZ+/jtcut5p8vHzh2vuepldPPV8nv//1JZ+/hT8uILj8kjaw4kYYB89dOXyJVnL5QllywobE8sB+WN5ffIg1t0i2KtC5cILBcmX3fO0zjZ+OiTe8Ksm29ra5VNGzfqyH2fNOTekWkQ3pH6cIT9nZUqLazxPLdRs6ZLYZvyQAg488wFwg6OuGy7LY9hWRrmHmd1EyoWSHictbL3ci2btYswOwzy7vaOdpgT94X0Wm6an6cOdY6H3eUEAVtmiE0HUNtqA+JoowoNefiN0BXOVH6uiLxHveBNGQgBYG7aAMPfBaV8hgjEFsPxGwgEAoGBRwBCaG5uTvP+qP+P59AIoGZ2EiEthMk9X3c8wg32pU/3qJ5FtsujX/uKjPn0p+T988fmqhgjzW+6Ml035WLKeyoEPPxTue3xLdJKBeq8/lRvLlM2nIvKey4E4PtlhGQEyTtBQmxzu+L55/L5ehvItgFtydRp0+SssxbqOv5N6XKBwnAygaIQVxAqPK4rn3b5Mw9z72HHh/udO3cmocy1HKRD1Z9ta0OByRUfm6tHIwAmZrBJSY6dawcgdfrCiZ00CFV6pd8B98WOn4VrA9AEIJwgfFEP7SOODZjCFRAIjUABiwgFAoHAACJw043XyX/7L38mx7oRBGiCkwNTA4yW031uOSEkUN9g6t06ZQPsCHypYIO8Icu/+HnZ8rb3yQfedZ5MKygVun6zQ+vliXt+Jj9fsSNpAiAviMzJPEt4XRcC+TiJ2dA1KwRARtxj1a+0Jrf823cScVLeU089Lc8883SXRR/W1QWPPvxQ/jn1uOvQcidOmqQHLW1L9ROfJV+/dwJnNYaHaYe9K35OA5HL7+9s2gd75nGWxwQzCJx3w1Eu78jlcTx3XCDgrGOU7psJedlaipbjQgA+GgFWdahAkM2cdhQkwoS2okeKj7XDNAdWjwkExHMKYbhiBEIQKMYj7gKBQGCAEGhQIl909tny7FNPdVtD0grkCJnEkAwCAaRCuK1ViVoJIxGIjvTcGUnqQTj3fl3+fPlsufjGC+WU8fPkkjefnjMG9JQHZO0Tz8i67a/Lo4++Lge1rizBUQ73uAJJed7yvhMeTwk7KZpa2siRufQLLrhQLnvLJflC3nzx0ny4XABS3ajbB3flWA+PlmXN62tTnV2lo00rV67q6nGKZ2fCrVu3aNjm7Q8ePKSGjZzMaPh4ZsOmTkfWTboaZHj+NEKe0z88hlGhCwAAQABJREFUpz4Pc8+Sv7zLCAyaLC8spH7W/NrVGgf2JpDVqZEo9+YUS1X30+vWDo+3crgzjQAzEDYdYAJAq9oxHJFJkyZ2ylcoYWiGQhAYmv0ebx0InFQEdu7aJffeu6xXH2C0AHU5A0O3F+hQlS5kgbORIpRVGBVCWMgFSS3dvk4e+8mGFL7ze2gNcgKFjjCdoLIjXsqEMPwZJOMXz3ClxGOx9tcFAfchcML4rpYm/w03XJ/N1m2Yd5kz+9Ru082YMb3bNJdfdmm3abIJHn7kUfnmN7+Zln6CdNaBHe/mqwUcq9Rv+p68u+NFuD63aiOVoVMD6ZwBvTG8rE8J0weel62JsRVgOkBjc9VrGq3XpgasntyD5Fl5pk1wAcDbicEqOy/6byibbyiHQxAYyr0f7x4InCQEbrvtDvn1rx+WKVPTRsA9qpUPerIVUOLnw52mCHSe3e0FGhpyxmj1tla9TckHVfOwYRBUYekaBEZZJjjYqNTuIR9GrxAP2gWrh1GkG8g5udHgbDj7AsQ7eRHvYXwuSIjr8OFDctFFS+X05jnZ7BUdvvDC8+WHP/xh2qTIST3bYFuTz0mKZhOAEJD6Ki+sWXzCRLHIO8UYrQ+jevYY0O5JrtAvJrRxrz2p2CMQWBoCCAK6wKCTIw15/HLsaRcX8XPmzO6Ub6hHhCAw1H8B8f6BwAAhsHbdG3L77XfIhg0b0tz4jBmz0sjy4kvfIk889mj6mHdXNR/uYzqK81E6y8ackHnmzkmKdBj7QS6trXbiIGncAh3CIhuqZ0iso8MM2qxMm1M2gcBK1qLU2UjY67UnxX+NeCivQESQkE8LMC9N/muuuao4Y4XfcYDR1VdfI3fd9dNE9tnm2vw9go6u5EhnA9hmUY4T5O9h8tV10giokaDGgx39wg6S5EFgw06AvPSnxSmW+e5Ga4BwRanFzvFPgofemABAWqYFDkuzCmHD+HGEK0IgECmCI24CgUCgPxC45+e/lNtu+1E6q76xcZie/z5eR+pN+sFvkLPPOVfWrX1dtqiVe08cRMFyQogBh2aAcNp2WJ9hOV/XYqN+yscZuViYexMkYBIfLdrmNaSD+I10KJ+yTUNAPn/Gc0tLLOWbn/1r5GOj3mTVrkyFpgEVOJqNefPmy5lnzM9mqfgwuL397dfKPffcU7atvBuaGR1sJwxTv2gf+OjbcM/1G4KXl5JwKQgCCGQ40oMtghvYgzlXe3vxoUNtKnioHshLy/uWlv4jj2GPQAb+2DosXHhWamc+QwQSAiEIxA8hEAgE+g2B519YIQ888Ct5TEf806ZNl5EjRybyZ70/F0TBoUILFi7qsSBA4yCWPBlD/Dli5hnkgdOoPEPzYYMMqBNH2EgmT0UaZ2TDPLSVx+izYOBGPjtCN0s42TAp3EE8LmQYCTEKJQ5tAEsGFy9e7ImrymcEPXfuXFmzZrW2u/P7I/SAH+/bogJZss/I9Y8LAjyvLwzpdf7EpkuYGqBvuOg/8EKwYC8Bmw5g2oU+wUbAneKr5M4J1VlHGTh8hAAu2oYQgG3A2LFjpTEnKGbzRVh7VUEr/MsIRAKBQCAQ6CUCx/RDu2LFy/KTn9ypG9psTuQ/YoSdRgcpOBn4aD2RgpL37T+6tVfCQMqn5bEGvEkvPur43A/TZXEmaLALYYOwQqFBVczU2Zg7IhfjNtTOTlQmQBBnKmhILhsGBmu7A1LCPB6dG+dCOkpDiYhcIwA5snZ939498jdf+IKc3nxaPlc1BR586BH51re+pdjmdmAs03hw5zlLFBH26A8Pc+9xqU/oH+2b7EV67yNwt8uENfoeQcF8EwRLm2BUZvgjPIA9GguEAFZrXKaGknNPby7NFveKQGgE4mcQCAQCJ4TAF77wRV2W9opMmTJVLbInpQ++f+CNSPmIF0iUDzbq2t5qBVI+1Qz4RsXtShw4L5vn1OeO5YVKCyRIaWgTjnSE8cnr9gNWjqmmSUeTmYsulFl4B56bs3GUTQv4aBTbADMSRJPBDoKXvuVyaT5tjmeqOp/ljsuWLZeNGzdo/zaVbT+ky3u7I+z9n41DIAB7w8yIm3su0jP6x2bAbAVMEEBAoH+sj0wD4WW6T34XxGiLTwmgjUEgqWb8/R0Hyg9BYKCQjXIDgRpGgCN0f3bPL3QN/qM64jois2adkh/x2cfcRnT24S4Gwgng9NPnymuzZ8vG9euLE3Rzh7V5OnpGicY+/kbAbE3sql8EgPrMHHMK6/P2dhuFMnevVJ+IhfYiGOBrEo1DUDFCg5CM3MoJATTUCIwQo1DKNSNB27jm2NFjah8xWj7+8Y/kSIyU1efox49+9MPy5S//gx6ffFDfpSBwZd8GLj527Khi0ZZ+D+SjjwxDMDKVPcTsvwOPw/ffTpseLFWvq0FMGHAbDnxqc4EgWzO/Acq2/jAjQdPGoJG55porU9nFOeLOEYipAUci/EAgEOgWgQ0bN8m//Mu/yp49e9Lc6+jRo4sEAD78PvIuLSz74YccIEwO3/n53T9V1fne0uQ9umd0OVw31GFqgDBEku5zYdTNDQ1cSiI5wm/Ue8K4cePGqxAzS9iUh4syaD/zyrt074P1699IBF5OoCG/v5OH7d6M1DhhcM/u3fKZz/6ldLdpEPmrwa1c9ap88YtfSgR9vPaCF6Q9fPgIm8rJ9Q/YWp+Y72Hivf/I6wIBvpVl5J8NZ+vn95QVBOg/hIF9+/bJxRe/SS7SZZDhukYgNAJdYxNPAoFAIIPAlq3b5Ktf/Zps3rwprQYYM2ZMnjj5kPsHPJMlH4QgnTTxfcTGh/6Syy6Xe+++K40c8xl6GKCcBr2oGwexsMLAwylen0EUGAW6Y2tijkWepvv0Y9AICXFhb0AZo0aNkgkTJshuJXJU+105fyeeE0a4SZe2CSHglFNPlYvfdFFX2asufsGZZ8j06TP0kCHdjlkx7crZMztHgD7G0ReeJ+t7mDRZASAbJm/2Im3WUYb3BT6CAJoA+jOEgCxS5cMhCJTHJWIDgUAgh8AuJTSMAR977HHZqyN3VgP4CC4rACTSzaDGx9kvPs5OlJA3ZMnHmosP/hi16N6vo7feOso/qloFrMgJM23AXgMebldyb9R76qCtFt8m48aP13nj4doO22iG507ihEmHO+OMM+T555/XNeid1eGkYRRKUn836ufI5QNqnHbGmWfJZz/753khpbfvVqnp3/ve98g3vvFN7TuOUS4/RUDbwYcpAggZfLhHyCLsPn3iuCOI8Rsijj7wKysAeLgUGy+f3xZhNE0YCV5//TtKk8Z9GQRCECgDSkQFAoGApI8pywHfeGN9Gh0vXbo0bcrCB90/0vilAgDYGQkY+XPvGgAn3mPHEAKOJZJAGBipI/C+CAJeF2STbASUaKjbw9Q7TC+Ih5UEOoMtR3RjGUb8LOtzoQQycjIhv78Tc9mnnHKKvPzyS1SVjydNunIER95WhArWt2u5aBn+6q8+IxNU4Kg1d+45Z8vNN39QhYFvqBbFhKuu3hFbizxWKjS1tjYm4of0U58o6bswAIbgnhUECOP8d+b9UlofeV2goE8xEPzd3/24TNYDmcJ1j0AIAt1jFCkCgSGHwL59++XxJ56UAwcOyuTJk5KKFTXrnDlz0k6BLgiUAsNHn48yzsk1kaR+nE0DcCznt6jR2SE5rIZn+JQ3f8ECeW3lytIie3zPaDxpBpwUlPghHNpE3YQ5VAd3TIUQE05MlU8buZy0vFKIx6ZAGuWQHsDjRJTSqaEg76iZ1IfkbL365o0b5f/5T39Sk0KA48J0x/r1G/T8iJ8roXe9pJD0ZsDHNoCGk/8u8LPCAPj778p9BAEw5/I4b4OVbf3mvzH6FE0AezaEEJBF6vjhEASOj088DQSGFAKccrdixUtpRIUh4NSpU9LHetgw1ng36Ln3C2T79u2JWLPAuACQ9Y1oTVXLiN01AKhtsTzfoeWwffBZixbLn//FZ2SR7vp2y79+W77y5b9TAeFQtvgeh6nftQPYCtAGNALsRghZHNDpB/YVoA0jR45SArdpCp45QVGGOwgI7cGkSVNk965XFQOzRYDcyIPqm3xcTAeQ95Of+g/ywd/5gBdRs/71171NNxlaI6tWrUzL87Dm78qBC0v6WBpoRn2EdR8I1bhA9ggEYOhk774LAC4MePnc46wPTBigT4mfrStRLr+8d4creblD1Y9VA0O15+O9A4ESBJ548ml5XY+ynTx5cvowNzXZ5jCmqmVUZvPs6/QMgaeffjqloQg+xnzouQhDvhAk+88zEodsIeckAKjK9sCB/bJWCWT2aafJV/7xHzut7/77f/iq/O3nP1fSur7dIgBANhAL7wFZQzpzTj9dyX2yTJs+Xac9JiaNB6sGEH5ITxpIxQisNa0guP++ZakR/p74vBcChwsD3/vBDzq9T99aXj25Vrz0svzTP3099TuYdOfA1QUqhAE0NS4MEG+rPIo1AZRJH7qjHu8H/83x+/qjP/q0TJ821ZOF30MECsj2MEMkCwQCgRNDgMNPuHbs3CUY4nERhjgHw+1RA8Bf/HK5QPAIASNGsFufLcfLCgFGjO064jpVxuvcN+SXHZFxD/G7JgCSZE25CwEHDx6Qbdu2yssvviiLzzmnrBDA+9900w39BgNTBdSPupi2sWywXUkEA0Pm9H0HwFJhJtsACAjhwIkfLQblcWFvwHw05yZ8+KMfH3JCADgtXrRQrrrqqiTgIfR154zAERrREiAk0jf+W7HpFf/d0Gf+m7Lfk9mVOP74+/btTctZ3/rWa0MI6A78Lp6HRqALYCI6EOgPBNh+d5eS/E5dk86hJ5AlH0J3RrRmcAf5MupmNJq2yWU0q6OlCXp+OhvlEN9fjtHT6jWv60iX5XEHlOiGpXX0NhpmNMYImnYVGwPSdgQCPsrLli1Po3wbDRup2kfbhIFElFoPGw7tzE0nfOC3PygXXHC+cLwt79aVY5R55513yde+8vddJelTvI/yx+vSwJlqBDjrlFOTZgBtAFMAXNn9BKjEBZ77779PVr60IvUfxogIBPTfTe/+Dbniisvlyisvl+EqMAxFhxD7hm4M9fzzL8h9992f+hxsjjddkMWJftH/02+L3xyaAQSw7O+P5zibljGhk5Ufl112mZypyxqXLF5oCeJvrxHovy9Lr6uODIFA7SLAiP/lV1YlVTsfOVTOaU98nWsfM2Z0enFUoP7B84+eq0x9pH1Ud6bbtXtPIuWZM2boBjhjTxg0DAB/9eDDSnCtyRBu/PhxefVsVjDxj7PLLQgBzO+26XGyqHMhTfZwdw0AvtsB4POMjYLeeP11ueTyy+V//NVfyYwZ03vUfkaZXBMnTpTvffffUhk9ythNIhfCEFIOquGgjzZ9rj+rGXChx1XSvO9e3UgJXFrRhuj1R3/yZ/KpP/xEN7XW/mNsSObNPT1dl156iXznO9+Tl1RosimW7hXP9tsCJwRNjAoRClwwMAnA+841T4vUtuSDH/zt0AL0w88rNAL9AGIUEQg4Anv37pNXVq5KFtUQCORvAgDLpWw+dPToUSm5ky7pXBDIfvwgHBwfQBcMIOBxuuYeYcJGXClJj/4c1VH888+/qBsCbVFDuRH5jXT4WFsbzA7A2pKM4VO59pHGIKvQDj7GaBOWL1+W4l0AQKWLdT12ABgDnn3ueXLDDTfomfZX9tmKfv2GjWkjo+9+65YevWdPEoHtJJ0GOWPBWTJZz0igT0aPHpMENt9gCHwdY/B/4YUX5PZbv5+Kn3fmmfLhj3xMPvCB9w1ZLUB3OG/dtj1pdVbqShDU9+4MU/tte1zXfm5lRi4BO0Eu0NUl1157jZzePKfrbPGkVwiEINAruCJxINA1Ai+8+FJSjZKCJWeQLaN+iBbVOz4fwVGjRqZCChoBNlApLJHykbjGFFWm4/FEuoy8cRMmjE+j8uOp2EmH/cHLL7+S5lE5MAYhAoHC22N12xQAskepBiArAFA3QgAW4IRf1Pn+FSteTFMFhw8fSrvpsQTw3AsukD/9s/+3X3fVe+zxJ+XJJ5+S733n27JpwwZe7YQcexectWiRGgzOSAIAgoD128gkvDk+VIIwtG7dOnn11VW6Ze2b5V3vuklmn3rKCdU/lDI/8+zz8tRTT6ff4Lp1a9OS0Z68P1qY005rTvtYXHjhBXL+eef0JFuk6SUCIQj0ErBIHgiUIsB8+yO/fkxHjC/qfPOkRCrMM2N0Z1bRtp7d5/35uOEQCpgDtbl4nxNlVtWEAt8PP1tfftc8HaFSL/WcesqsbJKiMKOyxx9/QuPqkgYAIaRgpW1zuAgePiXhQgCFmLrclmYZ+dsufIQxsoP4SX+3bg+8besWtYXYmaYC/t3vfULep7vPzZw5o6gt/XXz8COPyv/3X//LCU8XsMHQAhUEODCJPhk7dlw6sx6NALiiGUEYAB8EAfYg+MM/+P3+eo0hW85aNUpln4r7738gTc2Ab9aBNb/Rq666Mk2FxamBWXQGJhyCwMDgGqUOEQQYbf/iF8tkp5LgON273kjEpgMwvIPs+ahxObGgKcDxzFTyPjWQEwJyUwU8w2W/kxAvH8o0VcDIXC8MCafpkinKc4ch4MqVr6YPLaNchBJIzUe5WS2A58GnbFvnTR1G+Iz8XRPAnDp2C/hsBIQw8sILOtp74nG54qpr5GMf+6icMX9utsgBCWPn8KLud4Bh2q8euE9Wvfxyn+phEyPOA0AbgNrZ+5DpHLCi35yoeF/mv89esqhPdUWmQKBSEQhBoFJ7JtpV8Qj8/N5l8tBDD6a998fqvD2jSAgE0kUFzyoAyBwyMRK2OWeEBZwLAaYZ0Hss9HNCQHaUTlonI4gaZ4RtFu1Y8CMYoBnYum2brvF/LqnqmTqgbl8XT33ZlQAIGLniUpluh4CvT5TsTQAo+C2J+DG0QxDg4JntagfAksObb/4dmTF9WipnMP78+I6fyo9/fLs8eN/yXlV/im4+c5oeh4ywNH78hLwgQB+5IOACGe99imL89rddWyR09arCSBwIVCACsWqgAjslmlT5CKzRjXceeughtWqflAQAH2mj/mc6oPOcP+pPU/n720HuTvBMB+A8LqsF8Dh/jg9ZWxrTOEDMm7ds1WmAJxNJMUXhdgnWNrcBsKVZCAAuBDjx277wbAhk+wNQJpoAfLQAvhyQdfOMjhFALrnkEp0zXyrTdAfCwXTvefdNwvXkU8+o3cKKdPwstgsYMT6wzDYCKtc+9hNo0fcwjUdhl0EwMWHLBC/yIrCtXr1GWtTwMat9KVduxAUC1YRACALV1FvR1opAgHX33//+rWlpGyNHRt0QAxdCAKNuRpEQuI/6C2QO+bvK3wQBCJ3nMLuly93r26ZyckICL89zCKpB68F4kKVWdXVm9Q8xM2KF1HxawuvHd2dCAFMANg1gAoBZZ5OXCyKkPCN/3ThHCRPy36X7IeBm6FLGG2+8ftAFAH8n9zlytvTY2Q0bN6X38TS825e//A9pBQDvlWwttB85CAn7B56DAf0JRu7AkPjnnnuhX40gvfzwA4HBQiAEgcFCPuqtSgS2bN2WlrJByEwHuCYA0iDOCNdG/4QLxG4kzn2pc22Ap/fn6T6jRfC87iciV2FAchwP+U+aNDEZYplQ4vUjYBQ0AMUCAPsCGPFlDQLRAhj5H04CAIZym3T3vObm5qpbN1/OmPLiiy+Wn/74trQpEBseFbQCJgiAkWsFvD/AHcGPFRgXXnBe6nt/Fn4gUM0IFIYJ1fwW0fZA4CQgADl87Wvf0CVQu9OIG6J28oYksmEn63LN0qSJmIvSEJlzRfElcTzz5x52n/pZD4+dAlMT1r7OQoAbAdrmQO1J9e+aALQAhw/bKBmfaQAMIVnyxTTAv/v4R7yZVe3fdON1MlxtOtghMNk86MmB4AL5uwCQDfvLImCxWVS4QKCWEAhBoJZ6M95lQBH40W13yO7du5JRmWsCjGx9GsDI3DndCZtGZcNomzMa53ybjdDtlnJxTvIWW/jr8cnPaQ0gf/YmmMiWxLmjYamnsA+Arf3HBgDCZ8tjSM1H/ljisyHSHt09b6euhlivW8ZChufouQCf/OQn5L2/8a40Ii60onpDCEu//wefSqr/g7oD4hEVesAETYgtj7QTBV0z4G9Kv4PJqldXe1T4gUDVIxBTA1XfhfECJwMBLOcfffRRXW9up9MxMvTpAMjYiDs7Wu9dq7LETllaUkbDUCw4IGi4IOH5VDchOpZNbaJmVi4c1B3+cDbSNXsA3wjINQC8F7sBujFg2hZYj+rdvn2bLFlytnz0IzenMmrtDxij3fjyl/42aT0O6YFILS0Tkw0A2ED2CAQIAjh872eEiN16UFS4QKBWEAiNQK30ZLzHgCLwmG7KA2FC/jhIIeunm27+uKbAkznJ+D1+Ihs1JoSobOVBLk5H+105FwZ47lMCGDDafgC2F4ARm9kCuBCAcRxqcZ8CwA6A5YDsoHfJJZfKB37zvV1VWRPx4D9pyhRpU+JHG8BxwghNxIMXzsPZvuI3sFVtRcIFArWCQGgEaqUn4z0GDAE2DbrtttuSuj2N1pXRXRAortRGj8QxkIQ8nECMUMzKX5+kbP6MG8gl7TyYWXpIvJM8aZktyObhedaR1tLVyTBVYY8cOSoto4P43Roe1bcvB2RKAEFgn2oAmA7AnX++Wt1fdMGg7gmQfaeBDLOb4JJzzpVlP79HDuj0AIKeC0n43scmlNn0DzjiEJoIu2A4kO2MsgOBgUYgBIGBRjjKr3oEli+/P1nOs/Mc5ODCQPbFnKDxEQJwhFuf/gf52Ofuk2N63/TW/y7f/+M3p2f+hzRG9rah0DDOJFChwEjoVfnGe35D/vqFI6rrf7/8w+Ofkcv1X6zX5WWU89mYaIwaDu7fvy+N+M1AsC2FEQCwDYDMWA7I+7zrXe8UtnIdO3ZMueJqNm7SpMkJT8fEV0vMmjVLFunph9N1kyTfXAgQeL59+w559tnnkt/T0xRrFsB4sZpAIASBmujGeImBQgAVMQfrYCRmhG0q+lIyJh1GecTb5RvSZFvmzwqag+xTI3/bOwByZl1gYUZABRA1AKyraykSBAr1FZfpZbGxEKcEQvxMBeBjB8AcN9MHGAJeeumbZeqUydmmDJnwnDlz0rseU80IxxKzu+DSpUulufm0JAAgBLBDJMaXbNDE/g1TdToBOwG2OEZQcKyHDGjxojWHQAgCNdel8UL9iQAH3GzZsjktF/Rysx9+J2KeEda/uYsYj7Mwz0hi6cz3sKeg7Gz5Ho+vj9Iznmfr9TReVjY/ZA+J7du3Lc2DowHYuHGjzJ8/Pw7QUeDOP/+8BB/YjR0/Pk2NsN0wI3/U/hhdplUXOg3Q1lYwqTr11FNkigpP5Mvi7X0RfiBQTQiEIFBNvRVtPekIbNRd6fxj7x987rncZcPE+fPke6Kc788sXUEoKEnW49tseZ6JOHdoKsaPH5e0GmgD2BfgiiuukHe8/VpPMqT90aPtSGaIf+7c+clmwu0pwBH8SjFmRQeOeP9NDGkQ4+WrHoEQBKq+C+MFBgoBTvB75JFH0rSAkys+ROE+KnzCNjVgu/TV1bXrvLvHFUhZE+r/Riy02cKWvyfvoNnRKaT6qDN/dYqzswgoE6Li8KGzzjor2Tm86U0XDQlDwJ7gSZqFZ50p51+0VFcBbEnHR/sZCggGTAex6yL9TT8TRktAH7A6A4exJYdNhQsEqhmBgq6rmt8i2h4IDAACL7ywQjfY2aNkav9MnOypirD7Hu++ETSED9mnZLk/CAcuIBR2sDNytyQQd9ejTCd/qz/Vo6REvXmhINVpFVu59pxjii+55OIQArLdoWHI/qqrr5Gp06alqZO0y6AKAZC/X1l8PTuCAUad7MsQLhCodgRCEKj2Hoz2DxgCrC33kR/k7KN5J10IAse9+xZ2wlaC1v/yLjuKT2Ej9LTJj5JPa5tuZKME5OXm85UEEjEhAGS0CyShGd627L1l70hEZ+H4m0Xgmmuu1qOUdT8Bxd+XWromwIUA972vyd+gQsQR1QiECwSqHYEQBKq9B6P9A4bAli1bVBVss2cQgI3mC4fSOGlAEk4UtkzPVhBYfKZ5ifwtraUvpGvRdetH2fI3dxoey9mO6a5/bXk5wkb2vjLB6yzUa8JHikeYyAkJLhig1WC0myWyTMuGdHDe3GY577zzEz4JdxUAEQLRCNDHYIpg0JHTvDhYaAXYhCgwdUTCr1YEQhCo1p6Ldg8oAnz8IQVX09to2wgBgkiEq2mywoCpkm1O2bb1VaInozsNQygmUOgeA6pW9vX9iXS0XISBA7o18CE17Dt06Ii0mtJBS1BVtR+TqyTvZeBbmVYvZGVCQGb6QJuAZoNzBIK0vDMKPoR+/fXvSPP/bCpEvyM0sdyS/vV+oi9dECM3x00fzQkMhdIiFAhUHwJhLFh9fRYtPgkItCops2zQd46DQCF/nx5wQYB4f2bPS0fuGUGAiYJcObyCzjbofV0q11/JpiAsXUODkn8+O4KDzl2nPN4We0iZuDRizUxFWNvSk0RgKVH8KYvA1KlTUjzEjzaAvkQ4s/5CYGtMYceaxPQVNgZuWFi24IgMBKoAgRAEqqCToomDg4AbCWZrtxG4GZI5WWQ1BC4g2EgfC3Ml6FwBx+7/a/nw/dnSehPWkb5qE1rrckKAElWpU/FBycrsBKwd3KM9cAGmc57SMobqfZPutzBjxsy00yKCAOTOZRofw6/Qt5zyaGdO1KswgKaFlQOuPRqqGMZ7Vy8CMTVQvX0XLT/JCBgRFKzJfVrApgQK8UnNr2r/5Ct594tTQm9VgkIrkKYd0CyUXmmaoDBtYcKITWf4VEJ2RNsv7aqRQpgeaG5uTuRfmBpAILBzGpgeKNgJmLDFqzeqAHHw0KEkbNUIFPEaQxCBEASGYKfHK/cMgVLS5N5GiYwUbYmZzSGbtbmHXTDgHgLuH6eEnpuvtjlrG+kjnHh9+HZvcRZ2YzczfOufttRmKfPnz9MtmA/ljQZdI4Bv2Cq+eQ2L9St2AmgHOJiq9PdSmyjFW9UiAjE1UIu9Gu90wgiwRnzGjBny6qur1NDO1MB86PV/G+knQz8jY0gC0kc17MQMOTAi78gIAsMu+7T87989X8bpqXc4P78AMmEaglEpRn34lFVf/4b86A8/JV9bxRI1mxJoUyMBfVTWWftoI2ktvQsDtI92husagbMWnJlObMRQ0IwF0cCYIOU+/Q+mHR02hqKfmBbYu3dvOq8hpge6xjeeVC4CIQhUbt9EywYRAciYA2eyozzItbBjoI26SZclf8gWIcD9rCAAmRtJ23QBaQqkj1CBAZqVR3wi9jwGNt+PcaGmysdmA0ZQJqyY4OD1ud9P0xTZSmsoPFpPa7TdBNsy9gE2xeNGoun3gDSQcxA/17BhTdrn7CgZSlbHJvzqQSAEgerpq2jpSUbAyThbLeQNGaMu5oIESMfFvYeJZxTZUTD716FkwY6AMiEVhAbz0QJAMFyUidCBKpqUONcIEC4vCHgaykNooa1ctOPo0WNaTwgCoNeVoy+am5vltddeTUsIfU8BpmLsMq0KWhsXCunnxsYG7au6lGfYsKF1jHNXWEZ8dSEQ4mt19Ve09iQiwBG1EGnWQbLJaAzjPSVYFwjw/R7frzaG+e40bPFGLE7S5tv8vs//s8td2h8gIwi05QzXkrGgChWlPnkpK1suaWgbBw7NmjUzb+3uTQq/gACkPnv27LyNQEEQsH5O/aF96NMunhPhj2OJwwUC1YpAaASqteei3QOOAAaBEH85B9miiveLe7MLKEwZpNF+YUivA3adW9Z7H5m3tzOyN0EBEiqU0ZamCNhEqFC75bM85TUCpr7WarTNhBECXLBAGEArEO74CEyaNClpdbLCFEJZR0dTwtSwtakWwvQbjr5uU7zDBQLViEBoBKqx16LNJwWBq666Qs+cn5oIoLRCBICWFtuKFpJ14iDM5RqB1uzUQIep6Ulrl6maKYv0XkZhZI9RWk4UUJ9zCArPvIxiDUC+XtUOsPSNtrAuHqJiK91wx0fg4osvSqN7cHSNADg6rmgF6Ke0g2NOyEMYYGqAvgkXCFQjAiEIVGOvRZtPCgITJ0yQpUuXJhIorRB+RkUMyWatzF0Q8E1pWpU48qP6dtu1ztMYuZhw4KSdFSJaWpTk8xXrlESRsFAgJycp9538vZ6DumUxO+eNyq1WyBcZgU4IjFAV/7x585MAVdhP4Gi6tz0FbBUBezi4kKbmgkmLwBHG9EG4QKDaEAhBoNp6LNp7UhG47LJL1SJ8WKc6IQFU77jS0X1hZK+j/KKpATP4szlmPyOAEb2p8X3uGQ0BZeAjcJhT4tGyLI74wmVxVp61xbUEBQ3EvHmne0Hhd4MAtiG2T4RpVEwLA97g731QmB6gONMK2LLPboqPx4FAxSEQNgIV1yXRoEpCYNbMGWl6YMeOHZ2aZQRuTM0BNTifM8ZnRF6nJO+uI83ZG7kQx/4BHR2N6jOvzzHH5kPstq+ACgN5QUCFAx1ttubmpL1M98nDhSsIA+3p4Jzhw5tkwvjxnjT8bhCYMWN6mhZgfwC0PYzymQbCB1v6rCCoqUCQVntof6rR4K7de9J+At1UEY8DgYpCIDQCFdUd0ZhKQwCL8CVLluiHv7zKl1GiWfibqp4pAQjDpwZaCscHpuWDrq4330ec5C2M3m0e2kinYGKghw5lbQ8QCnIXZVm4sP6dONpw4MABmTNndlJdVxq2ldqeadOmJpsKMPWNhcxOwFZqmBCQpDYVCkxSY3qgQQ8gOnDgYF4gq9T3i3YFAqUIhCBQikjcBwIlCJx//nlpdF8Snb9FXeykDEn46JG4IkEgZyyYTZvSJCL35YdG8JTTqkJEViOAsaDZEiBAFC4vz8tCO8Fz5rj37dunGg07WS/f4AgcF4HZp54iY8aMUQxNmHKhDnzpF660KkOnZ7KuqWlYMhps0XThAoFqQqBOJdq88rGaGh5tDQROFgL8E/nXb31HHnnkYR0pdj2bhuU4O9Oxyxzryrmw1sfGgHgPQzI47tE4uF8a5t4t0klv0w6dlw6avYDNX5sAYZqGgwcPSnNzs1x+2SWhEQDAHjr6+yd33i133PFjmTlzll4zZYIajiJQTZo0MW0pPGrUSO23RhXWbBMp8uzffyAJCPQn0woYZ+Ljxo4ZnX4D/A7CBQKVhkD8KiutR6I9FYcABHzzB39Lnn32meOuxUekZiSOj2M6H7KAJLh8Dp+RJo57SINnkD4XcQgUnG9QEAQQCMhh29kScpctm7yUjY9KGyv28849O5Xj6cPvHgH6+x3veKvcf/99CUc0K+CKRsCnCrZt257impqaxDQBtqkQ/Yljz4bsvg2bNY4dCFmJMnbsWNU4jE7p4k8gUAkIhCBQCb0Qbah4BBjJLVlytjz22KP6Qe+8ioAXgJRxkIaHGxsRDEwQoAzCqJpx3DOCx8+SvgkFbCpky9Lws1fKrH+8XDQCZrhogoCrsK+77h0ybtxYTx5+LxDg0KmFCxfJihUrUi6EK3ZnxEH2GGCOHTsmaXuGDWvU/jHNDmRvhp7FfZcy6p8DupTzgGpq+A1xtsFI1RgMHzFcmsqsTPE84QcCA41ACAIDjXCUXzMI/PZvvV9Wr14tW7ZsVpXvyOO+FwR/9OgRHUVyAJEtB4TwuXzU6PekheiJRwjw5+67kFCuQggKgcCnBBAyOAnvssveIqc3zymXJeJ6gAB9c/nllyWhbfr06YnwUfMjANAvPt2Db31m/YYGSLsyxXm/ZQU6qqa/cGga2OMBY9Pxuqpj6pTJKT7+BAInG4EwFjzZiEd9VYvA6NGj5dOf/o9p3tj3EOjuZRACmEdGS+DqZUjbiTsbx0ieizh/7r6P8svl9bJdCICwzj1nSXdNi+fHQWDN62vlmWeeVZuASUl4c+JHCOBygY1pHJaBMpVj8SbQmVbApntIS7okICDw5e7RHjCtwPTCnj17ZfuOnanfj9OseBQIDAgCYSw4ILBGobWMwNp1b8hXvvJVNQ7bp6+ZJu+7fF2b7zdCYLTIh3/s2HEpvZOK+0YYBeNBnw7wkWW2EkaVpdoAlgrOnTtXbrrxunSEcjZ9hHuGAOr/ZcsfkPXr16vqfnRaPYBghfofYcAFAtfsEG9CgPcxUwM2LeD9ZgKAjrk0wLOsS9oBNDo5+w5+C5PVIDF2gcyiFOGBRiAEgYFGOMqvSQRefW21fO5zf51Gc4z+unNZgcAFAUjFhQAIgrALA04i7mcJBPJwQQBhAI0AKwRmzJghH/7Q7wSJdNcZXTzftHmz3H33z9OoHIM++mfkyJE6DTQ89Qv3jN69z/ARCMxGoNB/BUFAiZ//kgageAVItgnMFNCPdrXpdESLrlIYH5tAZUGK8IAiEDYCAwpvFF6rCJwxf568+93vkdtu+1Eii+6EAfYa8GV+WJ7jUPO7nQCEz70LA5BJ9irFsUAc7Wl1AEsVP3Tzb4cQUApUL+4RAlhpwVJB6xdT95uaPyukMeL3UT8jfOsr9/PCWy6ee4tDKVDQCHgYoQ6tQkcHvwEVGPQ/pgrQCoQRYS86MJL2GYHQCPQZusgYCIi8snKV3HXXz2TlylcSeUAG3TkMznBMFUAQzDEXwkY4kATPcE4YhLPaAOwGsAtobm5OQgCq7HC9R2DlqlflvvseSJsvYROAFgDBCg0A0wK2PNDm8wtanPoiIY4+ck2B9Z32n2qKXBtgNgIuMBT3qbcY4c40PR2q5eFky5a0MoElh/5b8LThBwL9iUBoBPoTzShryCFw1oIzhZ3ovvKPX8sLA91pB/jA4+rrW5XkTRBw36zOi0ebpIVc0m52qlmAMBAA9uzZLeeee5584vf/PUnC9QEBBLmvf/2fZfLkyWl9v2tonNQR0kwjYCTuhG4Cn8XRN6VXakpJPHEpXU5YJFzkVO5DEKjTsws6OoYlzQBbFjN1MGXypKKkcRMI9CcCIQj0J5pR1pBEgJH4f/rjT8svl90vP/7x7WnOHkLvyvGxx7WlgwRYWgjxc549KmQ9qCgRiKmTSQdfkIWVCiYEtMjEiRPlQx/6kAoCZ5MkXB8RePjhX6ele8z9IwT41AwjcBuFF5O8CQA5Qk9EbmReSuqaK9eP+Na4bBoPu89vAg2CigDpEKOGBoQB1UJoVqYr1IKwj28Y2QKB7hGIqYHuMYoUgUCPEdi4abM8/vgTej0uO3fuTMTSnYagtHDIAfLIkgQCADYEM2bMlPPOOzftExDrzkuR6/k9xPtTndJ57LHHkyDAVABz8j4twPQNgkFTE1MEJiBwb1MDCAlmKGjCg2kNbIqHVQOICyrc5Y0/C0JBmi7ISQbWzyYluHCIz9Wum0TR59iWoP2h76dNnZLfsrjnbxopA4HuEQhBoHuMIkUg0GsEdu/ZI7fc8m3dfGiLbNu2NfcBzw0Ne1Eam80cO3ZUpk+fKZdeeqm865039CJ3JO0KgTt+cpf87Gd3J8Fq3LhxaTUAQkAy0FPtAIKBCQLF50QgCKC9QeOD9uB4gkBjLq0LdEnLkFthkhUCsm10gaBNtT8uFPgBUggGTENRZ7hAoD8RiF9Uf6IZZQUCOQQw8Pr0//1/pd3jVq95XUeeT8iOHTuSloC5/XKObWcZfeJGjhwlzc3NaUng0qUXyCSdCsBwLdyJI/Da6jW6TPAu3SdgTCJVSLkwFVDQxJTW5MTMeL8Qtmme0rR+74TvmgCbbvCn5ucUBFqm1U3ZaBT4nzB5IH80A/v270+/heIS4i4QODEEQhA4MfwidyBwXAQg78WLFqbLE7708koPFvnsPc/+9Xz4J+iWs+H6HwGI9fvfvzWN/OmbglGgbQRkxN27eilTLTiUtE1AgMHr1cjQzh3QcM4glFJdMCDMCJ97y0+MuXwaLZbfAs9pJ9MVe/fus7arxiJcINBfCIQg0F9IRjmBQA8RWLRwQQ9TRrL+RmDX7t2yadOmpPrPE25JJYnXS+Kyty1P/J18+LO/FI6OGn7dX8rtf3KplDuGivIb0xJRsxGgjLq61+Sb7/+AfOHFIyIj3it//9hn5fIefIVTW1ERqOPkQ6YIiAsXCPQHAj34CfZHNVFGIBAIBAKDj8Bzz72ghnetOtIeWTQ695b56BzfNoCyFRt2z8jfjPk8vSZKI/b0pESCQL0PV2MrwPkCVrbaFuT52wIQOkaBOK8/hbUuXBICcqSPZoANqY7qNMGI0AokfOLPiSPQ/d6oJ15HlBAIBAKBwKAjwGl/Dz74kAoBOcv+PCGbmt4baGRcIGYXAsw3wcDTmmBgBI4c4Gl9tJ5IXAUCNyxkukBtDXNO41VIwJUO7ikn2Ql4Sk3gmxMRtX//gdyT8AKBE0cgBIETxzBKCAQCgSpAYP2GTXqM9GtKyr5jY/HnD/LFOeHbKxGXG/Xr8/TMHqS/loV4bi1/5nEKlpJ84TkSAVqDvGSQHuXbkdE+eBwJECrYgjgblzLGn0CgjwgU/0voYyGRLRAIBAKBSkdg1apX08oL29ehYPmfyD1H8hjwcY/PEdL4dpkQQLjYWVoXFljv3xeCRpDItkNrK7pPdWoimyaoT5tWoeEIFwj0BwIhCPQHilFGIBAIVDwCq1evzq/Bt2V8RuKQu5N/ERnrpj5G0LxagZh9Pt9eOBtv5bggYKTdecRfAMq0DX7v+bj3dpR7hgKBvQx8q2pPE34g0FcEQhDoK3KRLxAIBKoKgbRVr6ri/RRISL6cM0KG4AuE7MRsQkMml6axkyUtvT/JkrrHlfNN21AQIFI9mSkB8ng7s2UyPWDvU67UiAsEeodArBroHV6ROhAIBKoQgSNqab9ly+Z8y1HhczkR+z0nOkKyTAvoaRDpuR32VJfi6uuNtPMFKUvznHMj0ABokcm1tLTIUS0Hh5Ff8vV5OlAo3eX+wPI6ws/uJMgTEzwsTRI+0FrktRIWzzuFCwT6A4EQBPoDxSgjEAgEKhqB7dt36Lx6a76NfoCTEa7bBBiL26i/EIdgUFeHAGB2BW25pX5WmJ0H0A6Zq/CA/QH5ESzYCdDLams0AaNOT5wsZE8qB02DMFG4KBf5gDjP74IBvj5JVSO0hAsE+gOBEAT6A8UoIxAIBCoagSeffCqd2TBsWFOedCFZv5yIIXC28yXeXIGgnZiLXjQRtqata8iVS5kcSmT50lkRLXaqIIJCY6NqIozHtZhc/SpkGOEXSrb7XN05bQBPTRCwdLSV+9JVB4VSIhQI9AyBEAR6hlOkCgQCgSpGIHsstI3Abe8AyBTSxc+GzZhQ9GjoNiV10xRAuKTlcnds2WflN5f5XW/9dmlRrUFrY0fSJrgw4qV05OpRcUAJ39rr9dPWQ4cOp/b5+RSeL/xAoLcIhCDQW8QifSAQCFQ9Aj6ydiGAFzLbgILdgBM/pIvjHhuBjByQ4vv+R1X/qiVo6dCRfaZQiD/rEFxopwsKfu9TBNm0EQ4E+oJACAJ9QS3yBAKBQFUjgI1AWxvGfa06qm5NJA/hE2ZqwDUCxLFUD4eP2r/YRuAEYFABoFU1Am3lDirQYp348V0QoD1m30BcscBwAi2JrEMcgRAEhvgPIF4/EBiqCECkEL+RvRJ8IlmbJkAQQAPgz3SSIAkHDQ25kXkOtKYr/7N87Q+XSpOmT9sH6/bFCAwYDbKDIeV4WRZeJz/4xCfln1Zi8a9TAtSf0puw4X3hGgsTApgaKNUI2FSGpw8/EDgRBEIQOBH0Im8gEAhUJQLJ+F5bjgGfkz0+F8KBTxPgMxp3oaCtjVUBmZG4j9aT0IDtACsLmEJwIz4I3LQJAGWETghno3pbemgx2b/WRoSAYo2AtdPanU0f4UCgrwiEINBX5CJfIBAIVA0C06dPS+TuDYZcIVQInjX/OEgfIcBH8aQhjjSEcYz2O4oEASPk1lxaS8NJg4zwdalgfgWBnTCI4WFBjIDgSVN+90HqtAtDQaYESG9TA7Qdp00LFwicMAIhCJwwhFFAIBAIVDoC5513jjQ1NSnRG4HSXkjWbAWwA7CpARttm1YAAcAFA9LbvU4ZZA370mZCqknICQqkQ4OAAIHTYtVB6L6k0DQExKZ4TYsggCahs3NBwFcV5IQOfQfaxftgzxAuEDhRBOJXdKIIRv5AIBCoeARaddQPQZc6G3EbwWI4iCBAOnyEAw+TjzDpUeUXnKnt06RAbnienU6wOrE3QADBfkDTFzKnMrvTCBTqRWiw+mgfbQkXCPQHAiEI9AeKUUYgEAhUNAIjR46UmTNnycaNG4va6QaDRLa0NOhIviUJANxDtD6yd9JFOCiaGkirD3SEnpsuIB1XSpfxkRH0Vi8VNPL8rQKHju4xFuysEYDwLSGCgF8IAExlsGvhxIkTaWa4QOCEEQhB4IQhjAICgUCg0hGAmJubm2XDhvU6Oi8+aw2SRdUOGUP8pGUaAAfhepj7FFYDw7xTQYDphoYGViBgZ2AE7mcSUJZfCAJMRbhQgWTQnpYvFrfHyvZpgYImgjbSVk4dPHjwkMybNzffjAgEAieCQAgCJ4Je5A0EAoGqQWD69OlJ5d/YWI54jaQhW+bdGXlD+vgmJJgQkDQE+RG9vrqSOZsBofgnvan5bRqA8wlwriUgrHJBZmqAvKbq51mpg/Rx5HchwHxr0+jRo0qzxH0g0CcEQhDoE2yRKRAIBKoNgdNOm51G+I2NxTv4oIJnWR8OtbtrBFzFD8H7KJ5nHa1qK+Avr6p+8tTpngGkQSOQVhakBK4dKGxN3NCQnRpAI+BTA16g+ZTlFwIBAokLJUeOHNV66mXC+PHFmeIuEOgjAiEI9BG4yBYIBALVhcAZ8+fJ1VdfIw8//JCO+ouFAUjXVhTYlICOw3V035RG+TyDhCHkJBRkpwZUtZ8EgXb2G7DRPcICAgErBZiGYJaBOK729paiQ4cwYlQxohOQ1El97psgoNsRtxzTaYGDctFFF2gdtjKhU+aICAR6iUAIAr0ELJIHAoFA9SKwaNFCeeSRh7t8AQiXET0qeOXiRN6m8jeNAWSuloH5/GgSSMuSQoibywifsNsbUA5hnmU1AjrSP64ggFrBlg761AAHDVHHzBnT822IQCBwogjUqcSZ13KdaGGRPxAIBAKBSkbgmBLvn/3Zf5UjR4502UyInxP90BqwVp+L0Xc27PfYE/jZBAgAxWE2IyoYC6LOd0NF6kDgwBHOOtMC2NQAggCaCjQBCAP79u2XCy+8QJYsXpjNEuFA4IQQCI3ACcEXmQOBQKCaEGgaNkxOO+00WbnyFW12MQH7e0DEaAZcI5C0APrQ1PMFq3+mBNyRxlX1+Da+wl7Awtxz2dbDRv62+2DnXQX9XAGfakAAaGmxKYhh2v4FZ57h1YYfCPQLAqER6BcYo5BAIBCoFgS2bd8hn/vc53Wu/YCSd9djIUbqjOKHDbMd/IYPH57XDrgmAGLmckEgqxFAICDey3HtAAoAD5fDzGwDMBC0qQYEATQY+/fvl2uvvVrOWnBmuWwRFwj0GYEQBPoMXWQMBAKBakVg0+bN8pnP/GUiaVfXl3sXSBwVPgTf1DRcEAZcCIDoEQK4J+y+CwXFgoCdWcAznJXbeRmjH0qEMIAGAh9BYPv27XLGGWfIO2+6vlwzIy4QOCEEuhaHT6jYyBwIBAKBQOUiMGvmTLnhhhvlrrt+mkb9XbUUdb5ycSJl5ukhd1P7Ww4f8WfjCPvFcy7unfzxuSD5Uuf5fBqCNIcPHxZ2Rrz44qWlyeM+EOgXBEIj0C8wRiGBQCBQbQhAul/80v9O9gLHmyLgvdAKQOg+6seQMKsdyD7zMD6CA6TvPnHcW5nFGgEXAlwbgA0C2gDcRz9ys4wePTqF408g0N8IhCDQ34hGeYFAIFA1CLAm/6/+x1/Lli2bZcSIkd22u7GRtftmO5AVBiB6LgQFyL5UCCAelxUEXCBID/QPgoAZKXakjY+OHj2qqwT2ykc+8hE5Y/5cTxZ+INDvCIQg0O+QRoGBQCBQTQhgPPilL/2d7Ny5Q8n8+LOlkDfaAfPrk92AGwtC9h7OCgNO/h7nebMYoQXgcmEAIWD37l1yzTXXyNveek02aYQDgX5HIASBfoc0CgwEAoFqQwDNwD997Z/l5ZdfSqN6Rv3dOQQCBAdWFpg2oGA46BqCLPm7AIBf6hAAslMC5H/f+35DzjxjfmnSuA8E+h2BEAT6HdIoMBAIBKoRAYzyvvHPt8gLLzzfrWbA3w9Sd153jQCrEBAOuPdlgi4Q4Jc61wbgs6RxzJix8qEPfVDmzT29NGncBwIDgkAIAgMCaxQaCAQC1YrAX3/+f8qaNauVyIclVX1v3gMbAhcEbFvhws6CCAGdtQG2hTBCAILIuHHj5FOf+gOZMX1ab6qNtIHACSEQgsAJwReZA4FAoNYQYJpg+X2/khdffFHWrVubDPx6MlWQxQHCRytAPsJmV1CsDWDPAHYPZFkiKxDe8pbL5MorL5epUyZni4pwIDDgCIQgMOAQRwWBQCBQrQjcdffP5cc/vj3N33PWwPE2Hyp9x9LRvxsZkg4NwLFjx5IQcN55F+jKgJtl4oQJpUXEfSBwUhAIQeCkwByVBAKBQLUisHXbdnnttdWydu06eemll+TAgQO65e/h9DoY9fVEW2CjfzvGeOzYcTJ37lyZr8ciz5o1Uw0Cz9DVBsdfrVCt2EW7qwOBEASqo5+ilYFAIFAhCOzes0fuv/9BefXVV/ValUb3x2saQsC0aTPkkksukYULF8RKgOOBFc8GBYEQBAYF9qg0EAgEagGBl19ZlQwK0RisXLkyLSPkvVgOyJ4CV111ZbIVYOQfqv9a6PHafIcQBGqzX+OtAoFAIBAIBAKBHiFQbMbaoyyRKBAIBAKBQCAQCARqBYEQBGqlJ+M9AoFAIBAIBAKBPiAQgkAfQIssgUAgEAgEAoFArSAQgkCt9GS8RyAQCAQCgUAg0AcEQhDoA2iRJRAIBAKBQCAQqBUEQhColZ6M9wgEAoFAIBAIBPqAQAgCfQAtsgQCgUAgEAgEArWCQAgCtdKT8R6BQCAQCAQCgUAfEAhBoA+gRZZAIBAIBAKBQKBWEAhBoFZ6Mt4jEAgEAoFAIBDoAwIhCPQBtMgSCAQCgUAgEAjUCgIhCNRKT8Z7BAKBQCAQCAQCfUAgBIE+gBZZAoFAIBAIBAKBWkEgBIFa6cl4j0AgEAgEAoFAoA8IhCDQB9AiSyAQCAQCgUAgUCsIhCBQKz0Z7xEIBAKBQCAQCPQBgRAE+gBaZAkEAoFAIBAIBGoFgRAEaqUn4z0CgUAgEAgEAoE+IBCCQB9AiyyBQCAQCAQCgUCtIBCCQK30ZLxHIBAIBAKBQCDQBwRCEOgDaJElEAgEAoFAIBCoFQRCEKiVnoz3CAQCgUAgEAgE+oBAYx/yRJZAIBAYygjsvE1+781/LMtbSkEYJqf+wXdl+Z9eKA2lj+I+EAgEKhaB0AhUbNdEwwKBSkTgkDzz9a+WEQJoa4tsuPOX8nxbJbY72hQIBAJdIRCCQFfIRHwgEAh0RqDtZfnFna93jveYDcvlF88f8rvwA4FAoAoQCEGgCjopmhgIVAoCbc//Uu7a0GlOINO81+WO7z4sezIxEQwEAoHKRiAEgcrun2hdIFBBCByS5+9dLhuyLTr1evnNKydkYlpky+23yvKdMT+QASWCgUBFIxCCQEV3TzQuEKggBDpNC6hx4Ds/Jn/8rqUyLNvMlifkZ/dvzcZEOBAIBCoYgRAEKrhzommBQCUh0Hla4HS58e1LZOpV18nlRZLAHnnw7kdlZyU1PtoSCAQCXSIQgkCX0MSDQCAQKCBQblrgGnnbOaNEJr9Zrr8iOz2g6wd+dY88ENMDBfgiFAhUMAIhCFRw50TTAoGKQaDstMBb5Zy0YcB0ufKGmB6omL6KhgQCvUQgBIFeAhbJA3lbgnYAAARnSURBVIGhiED5aYGFuY2DGmTC3HkyvQiYmB4ogiNuAoEKRiAEgQrunGhaIFAZCGySO778vZLVArlpgVwDG855q9x4apGhQEwPVEbnRSsCgW4RCEGgW4giQSAwxBHY+aj87FfZnQFYLeDTAjlsGhbK2955ejFQsXqgGI+4CwQqFIEQBCq0Y6JZgUBlINAmO++/Rx4s2kOI1QI+LeCtHCXnvP0aOdVvkx/TA0VwxE0gUKEIhCBQoR0TzQoEKgOBrfLA3U/oKQIZd2rxtIA/KT89cKvcvvqIJwk/EAgEKhCBEAQqsFOiSYFAxSDQk2kBb2zZ6YGn5Fs/XCGxz6CDFH4gUHkI1HWoq7xmRYsCgUBg8BHQaYEf/YG85Y9/UawR6G3DTv2k/PCBP5Xz42zi3iIX6QOBk4JAaAROCsxRSSBQjQiUmRboy2vEiYR9QS3yBAInDYEQBE4a1FFRIFBlCHSaFuhr+1+Xu+59OaYH+gpf5AsEBhiBEAQGGOAoPhCoTgTKrRbo65u0yIY7fynPh6FAXwGMfIHAgCLQOKClR+GBQCBQnQi0PSvf+OL9xbYBPZ3rb3tKPn/l78hXN2TWGqTpgf8g55+vZxOECwQCgYpCIDQCFdUd0ZhAoDIQ6LylcJlNhLpqarnVAxLTA13BFfGBwGAjEILAYPdA1B8IVBwCZU4alHKbCHXV8HKbC8X0QFdoRXwgMNgIhCAw2D0Q9QcClYZAp5MGtYFdbCLUVdPLbS4ksXqgK7giPhAYVARCEBhU+KPyQKDyEDihaQF/nS6mB+747sOSPbXAk4cfCAQCg4dACAKDh33UHAhUIAInOi3gr1R+emDL7bfK8p2xfMBRCj8QqAQEYmfBSuiFaEMgEAgEAoFAIDBICIRGYJCAj2oDgUAgEAgEAoFKQCAEgUrohWhDIBAIBAKBQCAwSAiEIDBIwEe1gUAgEAgEAoFAJSAQgkAl9EK0IRAIBAKBQCAQGCQEQhAYJOCj2kAgEAgEAoFAoBIQCEGgEnoh2hAIBAKBQCAQCAwSAiEIDBLwUW0gEAgEAoFAIFAJCIQgUAm9EG0IBAKBQCAQCAQGCYEQBAYJ+Kg2EAgEAoFAIBCoBARCEKiEXog2BAKBQCAQCAQCg4RACAKDBHxUGwgEAoFAIBAIVAICIQhUQi9EGwKBQCAQCAQCgUFCIASBQQI+qg0EAoFAIBAIBCoBgRAEKqEXog2BQCAQCAQCgcAgIRCCwCABH9UGAoFAIBAIBAKVgEAIApXQC9GGQCAQCAQCgUBgkBAIQWCQgI9qA4FAIBAIBAKBSkAgBIFK6IVoQyAQCAQCgUAgMEgIhCAwSMBHtYFAIBAIBAKBQCUgEIJAJfRCtCEQCAQCgUAgEBgkBEIQGCTgo9pAIBAIBAKBQKASEAhBoBJ6IdoQCAQCgUAgEAgMEgIhCAwS8FFtIBAIBAKBQCBQCQiEIFAJvRBtCAQCgUAgEAgEBgmBEAQGCfioNhAIBAKBQCAQqAQE/g9Up4qfUzk/ngAAAABJRU5ErkJggg==" alt></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>(i) State the name, applying IUPAC rules, of compound <strong>A</strong>.</p>
<p>(ii) Draw a section, showing three repeating units, of the polymer that can be formed from compound <strong>A</strong>.</p>
<p>(iii) Compound <strong>A</strong> is flammable. Formulate the equation for its complete combustion.</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Compound <strong>B</strong> is related to compound <strong>A</strong>.</p>
<p><img 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" alt></p>
<p>(i) State the term that is used to describe molecules that are related to each other in the same way as compound <strong>A</strong> and compound <strong>B</strong>.</p>
<p>(ii) Suggest a chemical test to distinguish between compound <strong>A</strong> and compound <strong>B</strong>, giving the observation you would expect for each.</p>
<p>Test:</p>
<p>Observation with <strong>A</strong>:</p>
<p>Observation with <strong>B</strong>:</p>
<p>(iii) Spectroscopic methods could also be used to distinguish between compounds <strong>A</strong> and <strong>B</strong>.</p>
<p>Predict one difference in the IR spectra <strong>and</strong> one difference in the <sup>1</sup>H NMR spectra of these compounds, using sections 26 and 27 of the data booklet.</p>
<p>IR spectra:</p>
<p><sup>1</sup>H NMR spectra:</p>
<div class="marks">[5]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>A sample of compound <strong>A</strong> was prepared in which the <sup>12</sup>C in the CH<sub>2</sub> group was replaced by <sup>13</sup>C.</p>
<p>(i) State the main difference between the mass spectrum of this sample and that of normal compound <strong>A</strong>.</p>
<p>(ii) State the structure of the nucleus and the orbital diagram of <sup>13</sup>C in its ground state.</p>
<p><img 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" alt></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw a 1s atomic orbital and a 2p atomic orbital.</p>
<p><img src="data:image/png;base64,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" alt></p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>A student titrated an ethanoic acid solution, CH<sub>3</sub>COOH (aq), against 50.0 cm<sup>3</sup> of 0.995 mol dm<sup>–3</sup> sodium hydroxide, NaOH (aq), to determine its concentration.</p>
<p>The temperature of the reaction mixture was measured after each acid addition and plotted against the volume of acid.</p>
<p><img 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"></p>
</div>
<div class="specification">
<p>Curves <strong>X</strong> and <strong>Y</strong> were obtained when a metal carbonate reacted with the same volume of ethanoic acid under two different conditions.</p>
<p style="text-align: center;"><img src="data:image/png;base64,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"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Using the graph, estimate the initial temperature of the solution.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the maximum temperature reached in the experiment by analysing the graph.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the concentration of ethanoic acid, CH<sub>3</sub>COOH, in mol dm<sup>–3</sup>.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the heat change, <em>q</em>, in kJ, for the neutralization reaction between ethanoic acid and sodium hydroxide.</p>
<p>Assume the specific heat capacities of the solutions and their densities are those of water.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the enthalpy change, Δ<em>H</em>, in kJ mol<sup>–1</sup>, for the reaction between ethanoic acid and sodium hydroxide.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain the shape of curve <strong>X</strong> in terms of the collision theory.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest <strong>one</strong> possible reason for the differences between curves <strong>X</strong> and <strong>Y</strong>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>Sodium thiosulfate solution reacts with dilute hydrochloric acid to form a precipitate of sulfur at room temperature.</p>
<p style="text-align: center;">Na<sub>2</sub>S<sub>2</sub>O<sub>3</sub> (aq) + 2HCl (aq) → S (s) + SO<sub>2 </sub>(g) + 2NaCl (aq) + X</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the formula and state symbol of X.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why the experiment should be carried out in a fume hood or in a well-ventilated laboratory.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The precipitate of sulfur makes the mixture cloudy, so a mark underneath the reaction mixture becomes invisible with time.</p>
<p style="text-align: center;"><img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAH8AAAEiCAYAAADQ2g2OAAAXsklEQVR4Ae1dbYxexXWejbYgPppFivhhY2Vt0aqFqiwk+VGJivWWqqSpxBoqWpyKrn8mIGWJ3Aj51xqVSEkTdW2p0EBC11Yl+qHSNSggJSVZVpSUqiqLqcSSNNFi6o+qrrReA65a20z1XPt5Pb68996Z+zWfI+3O/Zg7d855zjkzc87ceUeklFKkFCUHPhYl1YnojAMJ/IgFIYGfwI+YAxGTnjQ/YvBHY6D95ZdfFm+88YY4deqUwHFZuvXWW8V1110ntm/fLnhcVt7neyMhTvXeeecdcejQoexveXm5ET4TExOZIOzatSsThkaVufYwwA8lLSwsyMnJSfgtOvkbHx+X8/Pzcn19PQiWiRCoAOgApivQ8/WOjY3Jubk574XAa7MP0/7www+LI0eO1DKok5OTlz2H7sKkrrGxsez9e/fuvaweb0581Py1tTUj8w6rMDMzk5nspaWlSpJXVlYkrMn09LSEluc1P38+MTEh8YxvyTvNh7Zj8LWxsVGqYOPj42LHjh1ZWYzaMdLHiB+jfWg4/pDUASEtAUf6eB7pwIED2Z9aNruR+zc3Nye8sgI+Sevs7GylFmLAB61FgoXAAA2amddW3XNo/+LiYlYfrEbV2ALlfRkQejPgg9kuAwyg0KQDrLZH/awfwFYJE+77IABegF8FPEbeSDqaWSZAOvdgVUIRAOfBLwMe2oiBFsCAudUBr40yoQiA0+CXAY9ROECHidcZkbcBulpHCALgLPhgrsrs/DFMPQZ0+et9nqONaEOV8EGIXUxOgg9TXgUitL7MMlQ93+Q+B3y0PjqzEAiKa8lJ8MncIoAwkkeq0rii55tch8CpYOtaILQVVsKl5Bz4YGYVOCijYx2q6jG9T/OtTiMx6ESqEli8i0LrigA4Bb5O/wkmYpCHaZ0peHXLQ2vhLGLK1wNB1BFatp312M6dWskD12iV2xYeVSy2qFqUkfO81jpF4AYuW7iC4eotct2iLXAJ6yQEolxJzoAPBh88eLA1vmARxvT0dAbe4uKiWFpaEuvr67B0H/lbW1sTMzMz2bvx3OzsrMAziAcgjrBv3z6xbdu2QoFDOcQPdBKihogVOJFsmx6+32TkDpOfN7MwzagDXQJmAkwoi2sojz8c5xPMtjoYwzFG53nHEft3tc+HKUc5pHx3UHTOevLt6PvciTV80BxE63QTysPMPvroowLRO5hjaCjrgWlFBO/w4cODKmHCUSbfZeAZlEVixK8opo/rKL9169bLooG4ZpJQj0lXYVK3Udm+pW3Y+6ocOnkNggZzwIdjaGpeS/PPtHWOtsJ6qPVxFqBeqzrmM8P40dc1J/p8E62HZENT1QEWxgvPPfeckdDXLYy2YvAHS8IES8D1AbxWlZvSXFVfnfvWwYfJNAWOZhqDs74T2oo2owthAvhsE69V5ZjV9DFjKWuHdfDrMAB9JjRN1f4yItu+h9G/OmVDO+rQUeeZNmmxPuAz1RgSzyVW0MK+TSjAB+AYbOL9EMQ6QNZ5hvS3kVtfwwcmVq2NUwlFX4sRe9GIXC3rw7HN7RGsm30TzYfTBlqG/haLLYc5bHSuwdkDzx0ECX84LnIA6dSHtsAxhHpMk+lA0bT+0vJ9TSuK3lM1JVLvwxmDKR6cJG0ESTBFVB1CRW2suo624K9OmBn02EpWNd9E6yHBcKGin6SzpVSqNW5ilI4upElCn48/dF1w26oDQZ16bWq+VfDBtLoJ3jsIg03m4d1oAz2JGHjq+vhJt832WwWfDNDN86NjML0J8wBWk5kC3u3zwNP6VE8XeJZraqZZDwTpnnvuyU4R1UMXYJrygoeZS/6aaZ19lvdK8zFGyJtV03EDmavG5tVj3tfJ8+9G2/LWSaceW2W8B78Os/GM6lvAOoI6GpvvMup6+myBb3UZl+k6PMbB8+vl1Fi8zrQpH4/HdBKLMk0So4qciqJNSGgjr+nkNlf1WgUfzNJhkFoGQKurZ3EPjNedr+dBY91YDAJh1El4Vx5krPEzFWa82+Y83zr4YDoB0MmLmAwBqGIkni17H+5V1YFYfh54tLuOgwfPmVotHeHULeOdbx/BFPTPZTEBhHrzswK1j9fpY/mtPsvCJ8H5PK8xx/o/BHswY9BZgMrnkF8wfuqVHo91paSrcliJo6Pxahn0kzCxZVqslu/yGG2A1ue7Ip13tuGiboKL9dF+fuqmI/d0oWK0DUtgK+HdmDlgyrd//37jZtSh3fglZQ80kZw2noXW6GhJvgz7ZzxvwwJwDR7GCHXfP2wlcRs81a3D+oAPDW2y+LLp83mh0j3H4BHA65bPl4PA2E7WzT6sElfllFmoonswuzbMZ1OHThOai3hhet178DEK7xt8LADBO+t4FwmQugCU1/rOnQAf0zJ+LmXKABuaD61lDN+0vSiPgSIsh/Vku9/h++HsyPeLOud13ao6dReVwUDN9EMTtS6bLl3yG7kTAz42CCNolUm6x8NcvrrPmpbjQK3uIJXxCdJsM3cK/Lraj5F33WdNwYczp+70FO9yReud03w0qI7Hj9o0LFpnCm5VeQhZnTaiXtsevbyVcUrz0Tho1bDASRUo6IebzLur6sd9fopdp33oLiA4LiXnwAdz6oRG+9B+tKvuQA9dk2vJSfDBJDBLRxvVMuz767pb1bryxxiM1rVKtBgJfAMOmI7+aVrramcecJ6jXgBfp683WWhiwJpWijqr+aTOdBDHeb+p4BDoYTnGE3W7IgiNq8l58ME8ADoMlKJrAB6pDQGAFalj7mEtIDAuJ+fBB/PAfFMg2xAAAm8qfC6belUYvQCfDa4rAKarbKC1mDbWsTropvCcD8kr8MFQaCPAKTL5+esYaQMM9NtV4wfcx6AO5QG+6XweQuZT8g58MBfOkiogVSEAiABTJ6GfNrUwJvXrtKGvMtZX7zYJa/KTaN0Vswilqt/kIayK9Xf8Whirgk0/vMSGDFhTmF8t3ISu3p7tS8q6eg9MNEy1SVegWoW6x7AOrrlrTXnspdkfRiSEAOMB05G5Cfgw7xA030En/7w2+0XmEaac394XfWhR9Gz+OroKrNzBsqu+l4vl29L2eZDgq0xCfw5hwHIvHuO+2r9zTR6uY0yAPwCNMYGXfbnKgJLj4MEvoT36W04s4IweBUsMSOBbYrwLr40a/JGREYG/WFPU4McKOulO4JMTEeYJ/AhBJ8kJfHIiwjyBHyHoJDmBT05EmCfwIwSdJCfwyYkI8wR+hKCT5AQ+ORFhnsCPEHSSnMAnJyLME/gRgk6SE/jkRIR5Aj9C0ElyAp+ciDBP4EcIOklO4JMTEeYJ/AhBJ8kJfHIiwjyBHyHoJDmBT05EmCfwIwSdJCfwyYkI8wR+hKCT5AQ+ORFhnsCPEHSSnMAnJyLME/gRgk6SE/jkRIR5Aj9C0ElyAp+ciDBP4EcIOklO4JMTEeYJ/AhBJ8kJfHIiwjyBHyHoJHmUB6Hm6q7aRTQW/Ro2dt8MbcvVy3jATXhDzev8IhY3Y8azIafgt1/FfrvQXtN99LHhMqxGyHvvBt/nA7y9e/deZu10TvBMyMCDB8FrPoHGDtrLy8s8Lc0nJyezXbpLCwVwMxrwMaibmprSgmxlZSXsgd5FLgRv9ok2NH9mZoanhTnKBD3CVyiPRvNBM35gAcAW/SATfnQBZULv64l/NJoPgvELGvglrKLk7a9kFRFUcT0qzScvIAT5qR+mdtD6mFJUmk9g9+3bx8NBPuza4GagB1FqPrBUp36xTO3yMhwt+PDe3XbbbRk/1tbWLvulzTyTQj0PPrBTBBxG/QcPHhSvv/56lMBnfAkhcMHgjSktZ86cqfVz5wj8hBD0iVbzIflXXXVV9ldkHUK/HuVoP3RQdelL4OtyKsByCfwAQdUlKYGvy6kAyyXwAwRVl6QEvi6nAiyXwA8QVF2SEvi6nAqwXAI/QFB1SUrg63IqwHIJ/ABB1SUpga/LqQDLJfADBFWXpAS+LqcCLJfADxBUXZIS+LqcCrBcAj9AUHVJSuDrcirAcgn8AEHVJSmBr8upAMsl8AMEVZekBL4upwIsl8APEFRdkhL4upwKsFwCP0BQdUlK4OtyKsByCfwAQdUlKYGvy6kAyyXwAwRVl6QEvi6nAiyXwA8QVF2SEvi6nAqwXAI/QFB1SUrg63IqwHJBgI899ftONt7ZNo3eb8UGELCjJnbXKvq5lLaZhj38sJWb7/v0eq/52DkTGynX+UGFukKBd+Gd3u/aabp9mUvl19bWJLZFm5yc7L1ZeOfY2JhEG3xNwteGo90zMzMZ+CsrK72TgXdC8NAGX5O34FPrbTKfwuer9nsLPswuNM8m4ymA09PTXiq/l+AvLS1lwM/OzlpnOrUfbfIteTnVc2mqZWOqWXeWkn/Ou6ke5vL4iTRXfhIFv8eDtqBNffkZ8iDWPfdO8+HQgba55GCh9kMQfPqpFq80/8CBA9lv47j2a5cAHW3C7/agjb4krzQfWo/kqna53r68UHqj+dQs5K4mttEXt68Xms8+FZqFgIrLycUxSRG/vNB8Bm980Cj0+b4EfZzXfGp9nyHbIk3Rve6SH6K0za57pXz0oNEDaTPuoIOr0+5dn33n8Pfbjj1UCYDT4FPrbQZvqhhYdJ+C67L2Owu+L6azCHxcp/DaWG9Q1i7ecxb8EFbKUPttrDQiwGW5k+BT60P41Ur+2qeLIV8np3reTJVK51EXbro8VXXOyQMniUshWw18S4uoIV/Xgj7OaT6DI3DjgnEhJGg/nFRILgWlnNJ8aAbCogiQhAI8AHc15OuM5rNvBKNc0o42LY9rVs0ZzfcpeFNXIFwL+Tqh+dR6n4I3dQXApZmME5pPrXd5oUZdsPPPgUZnQr5lHqA+7rnuBeuCBy58cAK6rHv46P/2MXhTVzBc+c7PKvjUepcjX3UBrnrOBaG3Cr4r5q8KqC7uU/BtfudnDXwGb1z43q4LcHXqpPbbCvpYm+q5NOXJj8j7Orc9xbUy1Tt06FBQwZu6wgJvps3v/Kxovk9r2+sCq/sctd+GW7t3zWfwBo4dEBx7Ag/o9u075Nu75jO4EWrwpq4w2+BLr5pPCY/BjWsqBORNn18l9ab57Nsg4a5/b2cKXFvlEdiCRcRfH11ib5rP4E2fkt0WKH3V0zePetF8SDKkOoaQbVNB6dX/oeOJalrGtierafv7fJ6ezz7iHZ27d+nD7oOYPkHq8l19fefXudkfGRlpagmjfh5h965SpwM+37Ym64rJTertlIddmq8Qvrfrkj9ldaO7xK7eXX7n15nmq5sl0nvVRANiexY86zzoUyZ9Te7ddNNN2eYE2KAAf0w8Z971dZvvbou2rrS/E81HgGJ1dVXMzc0B9eyPmstz5l1fVwdMfCfzrt/dRv3gIb5d7CLo08lon2Y+BW8If/0cbnE4x5Ba5ydNU1v5wsLCwNyzTpp45rau+94FgLdtplY1n8EbGwsT6uuWH0/CmoK/bQZ9Wu3z+w5M+AFbO63shLdtmZH19XV59dVXD+alNPHM+R6eM+/6Ot7DxHcy9/H6NddcI8HrNlJrmo/FCGfOnBn8vh1H1Mwp/zxn3vV1vIeJ72Tu2/WlpSXxwQcftPd7fm1IEIM3Xc1H22hjKHWAx7Bc4HnTdMkmNqiJIVuaU+askufMbV3H+5nYFua+XG/zO79L3CD1hjm1PoVsDRnXoDiVran2Nwa/TTPUgB9RPUqFa9rNNgKfq05oOl00qy62iZKq8q1OO/FMk+/8Gjl5el1vxqF5yjMO0KHWZF1k7ale+t7OrhTCi9o05Ftb87ds2SKOHTuWcYBz6fySLdeuo7GutamN9txwww3i6NGjxtJYS/MRXgTwCwsLA2aSsSCGf2wNz5nbuo73M7EtzH29Pj8/n2FRJ+RbS/NTyJai4kZeGw+OPHVzbiHO8GLTESvf21U9Fyz9hbd09Y6uaSiqn7QxjG66Rb2R5rcxwnRDV8JrBUb9CPeahHyN+nyGFdNXtu4JD7FBrp1oUqpyeJW4lNhX80kzCVp9pYE45duPc3j8gJFuyFfbw0d/chOPEhue8m44QI+rbpxFC3z6knUr7Ya0VKsOB0y+89MCnxWqpoYNUa/hmMmV6y62qS0eldGmo6iX0GKLcrmpKck9nk4tcEC3i66c6qXgjfbY2ZmCmO5h6lcV9Cmd6mHvnJB+6coZdDpuCDx+DPqU7n9UZpVo8tl/syzPmftyvayP9IWGonYW0VY2OyvVfAooVo2GEBQJgQZiwoCUmqv3gFlV0gK/qpJ0308OaIOPWL36R3LVa2o835XrLrapLd7p0MZ3Dcu1wVfNi0/m06e2EiBdXuvQxjqH5drgD3s4XfObA6M6zZ+amsqKcRDBcz7ry3W015e2mrazjDbi9JGcU4dheX6qx6ldyi9sNeMDH8qmeqUePizeKHUSfESU0gXXOAAvX9EmzqXgu0ZIak+7HEgDvnb56VVtCXyv4Gq3sU6Az71m2iXN3doQdXMhOQE+Pv3atm1bFoLEAkRXmNMmQKAJtGEABlpBs/U0bIrX9zUsE8Mva46Pjw8WVk5MTMj5+flWdqDomx6+D3SBBtDCaSFoBK24ZztVruTpu4HYecJnQSgDHLS5lJwDX2WOL4LgE+Aqf50GX22oa4LgK+AqT70BX220LUHAe/N9OPpzdFO451vyEnyVycMA4aCqDUBQh89jEJVX+WPvwVcJassUhwy4yq+gwFcJMxWEWABXeRRFYAcOFjhVsHvF4cOHM9/K+Pi4uP3227PjV199VRw5ciQ7npiYELt27RI7duwQ3PTAujOmqwaokhDD8QsvvCDvuOMOecUVVwwcLzjGNdyLKUWh+ViTAK2H9qsafvfdd2c69fzzz19mEaD10H64YoNOoUr64uKixDdrqssYH5xiCxOMB/KJYwTuKAp3LGcNqCvEFNSAj4BjgwL60gm47oYFABllISTq18moE8IUkiB4D35bgBdpdsiC4CX4XQMeiyB4A74twEMWBKfBdw3w0ATBKfDRv+YBx0CrzqCtCKiur/s0RnACfHxYEOLIepgwYxYCWss+puhaQFm/E+BD20OcSpHJzFWrhmPbKQoPXzteutPiJ09+SvzSo78nHl99TDw45sTa10ak+U9BI/LjfjiBHzH+noL/M/HDPxoTI3d9Tfzl858XM5sv7hoy9YiYfe2o2HhrXnx957UXdhLZPCM+/6MT4twA5A/E8R/tvXQfO45MPSIeevFtcTIrc06c/offFJtH7hJT+3ZfrPszYur7pwc1DA7ef1F8Z+e14uf+8HHxV8f+b3DZmwPbg4567/+p/MHuj0shNsnrv/x3cun0eSnPH5Yv7d6U+fRHH/gz+czR/5VSHperT9wiR0e/KOf+A+dn5Xuv7ZS/PvqA3PnqcXk2e/n78tj3Pie3i9+R972G36g9Kze+f6fcJIQcfeCAfOn0eXn+yCvyldPvyx9/60YpNu2Rj586L+V7L8hv33/NoEw9Ouw+5cRo35wFF8EnEFkFBO0++eDq/wyqPL/6oPwt8Wm5/XsnpZQXnhv9yg/k8UEJKeX5l+R3pq6Um55alWcH4PMZFty4BP67/+Q98KBKa2cOb8xYZUNvFL/xzQ1xVpwQq3//mHjyzXPik5/8T/H2wtPiG/94vdi0s7ICIcQR8ZOv3Sv2//XnxIOrvy/u/HlPe04hhL8tB06/+gviZiPmnxPvvzUrZjZvFjf/7iti+RO/KN5991fE1ie+K56+86Q4+e/Hxckqlpx4Rux/616x+/4XxVPfeFG8+aGOwLhZJi7N/3BZ/O2XnhDP/Paz4vC37xW3UPQ3nhCPvHVOiE9pgLRpj3j80GPiCyek+Leb5sQDn/20+Nf7xoWPjCT5GlQHUOS9H4u3l4W4/tduFjcrlH/43n+J/zYk72O/vEd89aunxJuzT4qnNvxUf4UFhtT7WHzsLvHZ2avFiWf+Rjx1cWr24bEDYt9Xvin+4oQpQVvEZ770J+LrW/9U7P3zf7k4TTStw275uMAXN4rtX/6WeHriSfHQliszP8CVe06K9fufFc/u/rg5EtfeLf7g4VvE6J4/Fg/98ynz5y0/kXz7lgGw+frINN8mq917dwLfPUx6a9H/A/cQGbsiJgMiAAAAAElFTkSuQmCC" alt></p>
<p style="text-align: left;">10.0 cm<sup>3</sup> of 2.00 mol dm<sup>-3</sup> hydrochloric acid was added to a 50.0 cm<sup>3</sup> solution of sodium thiosulfate at temperature, T1. Students measured the time taken for the mark to be no longer visible to the naked eye. The experiment was repeated at different concentrations of sodium thiosulfate.</p>
<p style="text-align: left;"><img 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" alt></p>
<p style="text-align: left;">Show that the hydrochloric acid added to the flask in experiment 1 is in excess.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw the best fit line of \(\frac{1}{{\rm{t}}}\) against concentration of sodium thiosulfate on the axes provided.</p>
<p><img 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" alt></p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>A student decided to carry out another experiment using 0.075 mol dm<sup>-3</sup> solution of sodium thiosulfate under the same conditions. Determine the time taken for the mark to be no longer visible.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>An additional experiment was carried out at a higher temperature, T<sub>2</sub>.</p>
<p>(i) On the same axes, sketch Maxwell–Boltzmann energy distribution curves at the two temperatures T<sub>1</sub> and T<sub>2</sub>, where T<sub>2 </sub>> T<sub>1</sub>.</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>(ii) Explain why a higher temperature causes the rate of reaction to increase.</p>
<div class="marks">[4]</div>
<div class="question_part_label">f.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest one reason why the values of rates of reactions obtained at higher temperatures may be less accurate.</p>
<div class="marks">[1]</div>
<div class="question_part_label">g.</div>
</div>
<br><hr><br>