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</div><h2>HL Paper 2</h2><div class="specification">
<p>Magnesium, a reactive metal found in many common minerals, is also an essential nutrient for both plants and animals.</p>
</div>
<div class="specification">
<p>Successive ionization energies of magnesium are given in the table below.</p>
<p><img src="images/Schermafbeelding_2016-08-14_om_07.56.03.png" alt="M14/4/CHEMI/HP2/ENG/TZ2/08.b"></p>
</div>
<div class="specification">
<p>Magnesium metal is mainly used as a component in lightweight alloys, particularly in combination with aluminium and titanium.</p>
</div>
<div class="specification">
<p>Magnesium is usually produced by the electrolysis of molten magnesium chloride.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Define the term <em>first ionization energy</em>.</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>(i) Explain why the second ionization energy is greater than the first ionization energy.</p>
<p> </p>
<p> </p>
<p> </p>
<p> </p>
<p>(ii) Explain why the third ionization energy is much greater than the second ionization energy.</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>Although magnesium is usually found as \({\text{M}}{{\text{g}}^{2 + }}\) in its compounds, it is possible to use the Born-Haber cycle to investigate the possibility of \({\text{M}}{{\text{g}}^ + }\) being able to form stable compounds.</p>
<p>Use the ionization energy data from part (b), along with the other data provided below, to determine the enthalpy change of formation of MgCl(s). Assume that, because \({\text{M}}{{\text{g}}^ + }\) would be similar in size to \({\text{N}}{{\text{a}}^ + }\), MgCl would have a similar lattice enthalpy to NaCl.</p>
<p> Enthalpy of atomization of Mg \( + 146{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\)</p>
<p> Bond enthalpy in \({\text{C}}{{\text{l}}_{\text{2}}}\) \( + 243{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\)</p>
<p> Electron affinity of Cl \( + 349{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\)</p>
<p> Lattice enthalpy of NaCl \( + 790{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\)</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>Consider the lattice enthalpies of \({\text{Mg}}{{\text{F}}_{\text{2}}}\), \({\text{MgC}}{{\text{l}}_2}\) and \({\text{CaC}}{{\text{l}}_{\text{2}}}\). List these from the most endothermic to the least endothermic and explain your order.</p>
<p> </p>
<p>\({\text{Most endothermic}} \to {\text{Least endothermic}}\)</p>
<div class="marks">[3]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Magnesium hydroxide, \({\text{Mg(OH}}{{\text{)}}_{\text{2}}}\), is only sparingly soluble in water and the equilibrium below exists when excess solid is in contact with a saturated solution.</p>
<p>\[{\text{Mg(OH}}{{\text{)}}_2}{\text{(s)}} \rightleftharpoons {\text{M}}{{\text{g}}^{2 + }}{\text{(aq)}} + {\text{2O}}{{\text{H}}^ - }{\text{(aq)}}\]</p>
<p>Outline how the solubility of magnesium hydroxide will vary with pH.</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>(i) Describe the bonding present in magnesium metal.</p>
<p> </p>
<p> </p>
<p> </p>
<p>(ii) Suggest why magnesium is harder than sodium.</p>
<p> </p>
<p> </p>
<p>(iii) Outline why alloys are generally less malleable than their component metals.</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>(i) Draw a labelled diagram of a suitable apparatus for the electrolysis.</p>
<p> </p>
<p>(ii) State equations for the reactions that take place at the electrodes.</p>
<p> </p>
<p>Negative electrode (cathode) reaction:</p>
<p> </p>
<p>Positive electrode (anode) reaction:</p>
<p> </p>
<p>(iii) When dilute aqueous magnesium chloride is used as the electrolyte, the reactions at both electrodes are different. State equations for the reactions that occur in aqueous solution.</p>
<p> </p>
<p>Negative electrode (cathode) reaction:</p>
<p> </p>
<p>Positive electrode (anode) reaction:</p>
<p> </p>
<p>(iv) Outline why magnesium metal is not produced in the electrolysis of aqueous magnesium chloride.</p>
<div class="marks">[7]</div>
<div class="question_part_label">g.</div>
</div>
<br><hr><br><div class="specification">
<p>Buta-1,3-diene can be hydrogenated to produce butane, according to the reaction below.</p>
<p>\[{{\text{C}}_{\text{4}}}{{\text{H}}_{\text{6}}}{\text{(g)}} + {\text{2}}{{\text{H}}_{\text{2}}}{\text{(g)}} \to {{\text{C}}_{\text{4}}}{{\text{H}}_{{\text{10}}}}{\text{(g)}}\]</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the conditions necessary for this reaction.</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>Determine the standard enthalpy change of reaction, \(\Delta {H^\Theta }\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), at 298 K for the hydrogenation reaction, using Table 11 of the Data Booklet.</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 standard free energy change, \(\Delta {G^\Theta }\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), at 298 K for the hydrogenation reaction, using Table 11 of the Data Booklet.</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) Determine the standard entropy change of the reaction, \(\Delta {S^\Theta }\), at 298 K, in \({\text{kJ}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\), using your answers from (b) and (c).</p>
<p> </p>
<p> </p>
<p> </p>
<p> </p>
<p>(ii) Explain why the standard entropy change for the hydrogenation of buta-1,3-diene has a negative sign.</p>
<p> </p>
<p> </p>
<p> </p>
<p>(iii) Predict whether the hydrogenation reaction becomes more or less spontaneous as the temperature increases.</p>
<p> </p>
<p> </p>
<p>(iv) Determine the temperature, in K, at which the spontaneity changes.</p>
<p> </p>
<p> </p>
<p> </p>
<p>(v) Determine the standard entropy, \({S^\Theta }\), for hydrogen in \({\text{J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\), using Table 11 of the Data Booklet and your answer for (d)(i).</p>
<div class="marks">[8]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">The Born-Haber cycle for MgO under standard conditions is shown below.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-02_om_15.47.42.png" alt="N09/4/CHEMI/HP2/ENG/TZ0/07.a_1"></p>
<p class="p1">The values are shown in the table below.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-02_om_15.48.28.png" alt="N09/4/CHEMI/HP2/ENG/TZ0/07.a_2"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Identify the processes represented by <strong>A</strong>, <strong>B </strong>and <strong>D </strong>in the cycle.</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Define the enthalpy change, <strong>F</strong>.</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">Determine the value of the enthalpy change, <strong>E</strong>.</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">Define the enthalpy change <strong>C </strong>for the first value. Explain why the second value is significantly larger than the first.</p>
<div class="marks">[4]</div>
<div class="question_part_label">a.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The inter-ionic distance between the ions in NaF is very similar to that between the ions in MgO. Suggest with a reason, which compound has the higher lattice enthalpy value.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.v.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The standard enthalpy change of three combustion reactions is given below in kJ.</p>
<p class="p1">\[\begin{array}{*{20}{l}} {{\text{2}}{{\text{C}}_{\text{2}}}{{\text{H}}_{\text{6}}}{\text{(g)}} + {\text{7}}{{\text{O}}_{\text{2}}}{\text{(g)}} \to {\text{4C}}{{\text{O}}_{\text{2}}}{\text{(g)}} + {\text{6}}{{\text{H}}_{\text{2}}}{\text{O(l)}}}&{\Delta {H^\Theta } = - 3120} \\ {{\text{2}}{{\text{H}}_2}({\text{g)}} + {{\text{O}}_2}{\text{(g)}} \to {\text{2}}{{\text{H}}_2}{\text{O(l)}}}&{\Delta {H^\Theta } = - {\text{572}}} \\ {{{\text{C}}_2}{{\text{H}}_4}({\text{g)}} + {\text{3}}{{\text{O}}_2}{\text{(g)}} \to {\text{2C}}{{\text{O}}_2}{\text{(g)}} + 2{{\text{H}}_2}{\text{O(l)}}}&{\Delta {H^\Theta } = - {\text{1411}}} \end{array}\]</p>
<p class="p1">Based on the above information, calculate the standard change in enthalpy, \(\Delta {H^\Theta }\), for the following reaction.</p>
<p class="p1">\[{{\text{C}}_2}{{\text{H}}_6}({\text{g)}} \to {{\text{C}}_2}{{\text{H}}_4}({\text{g)}} + {{\text{H}}_2}{\text{(g)}}\]</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">Predict, stating a reason, whether the sign of \({\Delta {S^\Theta }}\) for the above reaction would be positive or negative.</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">Discuss why the above reaction is non-spontaneous at low temperature but becomes spontaneous at high temperatures.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Using bond enthalpy values, calculate \(\Delta {H^\Theta }\) for the following reaction.</p>
<p class="p1">\[{{\text{C}}_2}{{\text{H}}_6}({\text{g)}} \to {{\text{C}}_2}{{\text{H}}_4}({\text{g)}} + {{\text{H}}_2}{\text{(g)}}\]</p>
<div class="marks">[3]</div>
<div class="question_part_label">b.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Suggest with a reason, why the values obtained in parts (b) (i) and (b) (iv) are different.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.v.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Lattice enthalpies can be determined experimentally using a Born–Haber cycle and theoretically using calculations based on electrostatic principles.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The experimental lattice enthalpies of the chlorides of lithium, LiCl, sodium, NaCl, potassium, KCl, and rubidium, RbCl, are given in Table 13 of the Data Booklet. Explain the trend in the values.</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">Explain why magnesium chloride, \({\text{MgC}}{{\text{l}}_{\text{2}}}\), has a much greater lattice enthalpy than sodium chloride, NaCl.</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) Identify the process labelled <strong>a </strong>on the Born–Haber cycle for the determination of the standard enthalpy of formation of lithium fluoride, LiF.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-11-01_om_08.09.06.png" alt="M12/4/CHEMI/HP2/ENG/TZ2/03.c"></p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>The enthalpy change for process <strong>a </strong>is \( + 159{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\). Calculate the standard enthalpy of formation of lithium fluoride, LiF, using this and other values from the Data Booklet.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Phosphoryl chloride, \({\text{POC}}{{\text{l}}_{\text{3}}}\), is a dehydrating agent.</p>
</div>
<div class="specification">
<p class="p1">\({\text{POC}}{{\text{l}}_{\text{3}}}\left( {\text{g}} \right)\) decomposes according to the following equation.</p>
<p class="p1">\[{\text{2POC}}{{\text{l}}_3}{\text{(g)}} \to {\text{2PC}}{{\text{l}}_3}{\text{(g)}} + {{\text{O}}_2}{\text{(g)}}\]</p>
</div>
<div class="specification">
<p class="p1">POCl<sub><span class="s1">3 </span></sub>can be prepared by the reaction of phosphorus pentachloride, PCl<sub><span class="s1">5 </span></sub>, with tetraphosphorus decaoxide, P<sub><span class="s1">4</span></sub>O<sub><span class="s1">10</span></sub>.</p>
</div>
<div class="specification">
<p class="p1">PCl<sub><span class="s1">3 </span></sub>and Cl<sup>–</sup><span class="s1"> </span>can act as ligands in transition metal complexes such as Ni(PCl<sub><span class="s1">3</span></sub>)<sub><span class="s1">4 </span></sub>and [Cr(H<sub><span class="s1">2</span></sub>O)<sub><span class="s1">3</span></sub>Cl<sub><span class="s1">3</span></sub>].</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Predict and explain the sign of the entropy change, \(\Delta S\), for this 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">Calculate the standard entropy change for the reaction, \(\Delta {S^\Theta }\), in \({\text{J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\), using the data below.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-16_om_07.31.10.png" alt="M13/4/CHEMI/HP2/ENG/TZ2/05.a.ii"></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">Define the term <em>standard enthalpy change of formation</em>, \(\Delta H_{\text{f}}^\Theta \).</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the standard enthalpy change for the reaction, \(\Delta {H^\Theta }\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), using the data below.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-16_om_07.42.10.png" alt="M13/4/CHEMI/HP2/ENG/TZ2/05.a.iv"></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">Determine the standard free energy change for the reaction, \(\Delta {G^\Theta }\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), at 298 K.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.v.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Deduce the temperature, in K, at which the reaction becomes spontaneous.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.vi.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Deduce the Lewis (electron dot) structure of POCl<sub><span class="s1">3 </span></sub>(with P as the central element) and PCl<sub><span class="s1">3 </span></sub>and predict the shape of each molecule, using the valence shell electron pair repulsion theory (VSEPR).</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">State and explain the Cl–P–Cl bond angle in PCl<sub><span class="s1">3</span></sub>.</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 class="p1">Deduce the Lewis (electron dot) structure of PCl<sub><span class="s1">5</span></sub>.</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">Predict the shape of this molecule, using the valence shell electron pair repulsion theory (VSEPR).</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 class="p1">Identify all the different bond angles in PCl<sub><span class="s1">5</span></sub>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">PCl<sub><span class="s1">3</span></sub>Br<sub><span class="s1">2 </span></sub>has the same molecular shape as PCl<sub><span class="s1">5</span></sub>. Draw the three isomers of PCl<sub><span class="s1">3</span></sub>Br<sub><span class="s1">2 </span></sub>and deduce whether each isomer is polar or non-polar.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Define the term <em>ligand</em>.</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 class="p1">Explain why the complex [Cr(H<sub><span class="s1">2</span></sub>O)<sub><span class="s1">3</span></sub>Cl<sub><span class="s1">3</span></sub>] is coloured.</p>
<div class="marks">[3]</div>
<div class="question_part_label">d.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>In December 2010, researchers in Sweden announced the synthesis of N,N–dinitronitramide, \({\text{N(N}}{{\text{O}}_{\text{2}}}{{\text{)}}_{\text{3}}}\). They speculated that this compound, more commonly called trinitramide, may have significant potential as an environmentally friendly rocket fuel oxidant.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Methanol reacts with trinitramide to form nitrogen, carbon dioxide and water. Deduce the coefficients required to balance the equation for this reaction.</p>
<p style="text-align: center;">___ \({\text{N(N}}{{\text{O}}_2}{{\text{)}}_3}{\text{(g)}} + \) ___ \({\text{C}}{{\text{H}}_3}{\text{OH(l)}} \to \) ___ \({{\text{N}}_2}{\text{(g)}} + \) ___ \({\text{C}}{{\text{O}}_2}{\text{(g)}} + \) ___ \({{\text{H}}_2}{\text{O(l)}}\)</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 enthalpy change, in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), when one mole of trinitramide decomposes to its elements, using bond enthalpy data from Table 10 of the Data Booklet. Assume that all the N–O bonds in this molecule have a bond enthalpy of \({\text{305 kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\).</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>The entropy change, \(\Delta S\), for the decomposition of trinitramide has been estimated as \( + 700{\text{ J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\). Comment on the sign of \(\Delta S\).</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>Using \( + 700{\text{ J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\) as the value for the entropy change, along with your answer to part (c), calculate \(\Delta G\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), for this reaction at 300 K. (If you did not obtain an answer for part (c), then use the value \( - 1000{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), but this is not the correct value.)</p>
<div class="marks">[3]</div>
<div class="question_part_label">e.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain how changing the temperature will affect whether or not the decomposition of trinitramide is spontaneous.</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>Outline how the length of the N–N bond in trinitramide compares with the N–N bond in nitrogen gas, \({{\text{N}}_{\text{2}}}\).</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>Deduce the N–N–N bond angle in trinitramide and explain your reasoning.</p>
<div class="marks">[3]</div>
<div class="question_part_label">h.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Predict, with an explanation, the polarity of the trinitramide molecule.</p>
<div class="marks">[2]</div>
<div class="question_part_label">i.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">An example of a homogeneous reversible reaction is the reaction between hydrogen and iodine.</p>
<p class="p1">\[{{\text{H}}_2}{\text{(g)}} + {{\text{I}}_2}{\text{(g)}} \rightleftharpoons {\text{2HI(g)}}\]</p>
</div>
<div class="specification">
<p class="p1">Propene can be hydrogenated in the presence of a nickel catalyst to form propane. Use the data below to answer the questions that follow.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-27_om_06.45.18.png" alt="M11/4/CHEMI/HP2/ENG/TZ2/06.b"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">At a temperature just above 700 K it is found that when 1.60 mol of hydrogen and 1.00 mol of iodine are allowed to reach equilibrium in a \({\text{4.00 d}}{{\text{m}}^{\text{3}}}\) flask, the amount of hydrogen iodide formed in the equilibrium mixture is 1.80 mol. Determine the value of the equilibrium constant at this temperature.</p>
<div class="marks">[4]</div>
<div class="question_part_label">a.v.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Outline why the value for the standard enthalpy change of formation of hydrogen is zero.</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 standard enthalpy change for the hydrogenation of propene.</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">Calculate the standard entropy change for the hydrogenation of propene.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the value of \(\Delta {G^\Theta }\) for the hydrogenation of propene at 298 K.</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">At 298 K the hydrogenation of propene is a spontaneous process. Determine the temperature above which propane will spontaneously decompose into propene and hydrogen.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.v.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Methanol is made in large quantities as it is used in the production of polymers and in fuels. The enthalpy of combustion of methanol can be determined theoretically or experimentally.</p>
<p class="p1">\[{\text{C}}{{\text{H}}_3}{\text{OH(l)}} + {\text{1}}\frac{1}{2}{{\text{O}}_2}{\text{(g)}} \to {\text{C}}{{\text{O}}_2}{\text{(g)}} + {\text{2}}{{\text{H}}_2}{\text{O(g)}}\]</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-21_om_11.49.46.png" alt="M11/4/CHEMI/HP2/ENG/TZ1/01"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the \(\Delta {S^\Theta }\) for the combustion of methanol.</p>
<p class="p1">\[{\text{C}}{{\text{H}}_3}{\text{OH(l)}} + {\text{1}}\frac{1}{2}{{\text{O}}_2}{\text{(g)}} \to {\text{C}}{{\text{O}}_2}{\text{(g)}} + {\text{2}}{{\text{H}}_2}{\text{O(g)}}\]</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">Using the enthalpy of combustion for methanol from Table 12 of the Data Booklet and the \(\Delta {S^\Theta }\) determined in part (d), calculate the standard free energy change for the combustion of methanol.</p>
<div class="marks">[3]</div>
<div class="question_part_label">e.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain whether changing the temperature will alter the spontaneity of the reaction.</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.</div>
</div>
<br><hr><br><div class="specification">
<p>Enthalpy changes depend on the number and type of bonds broken and formed.</p>
</div>
<div class="specification">
<p>The table lists the standard enthalpies of formation, \(\Delta H_{\text{f}}^\Theta \), for some of the species in the reaction above.</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2018-08-10_om_08.21.04.png" alt="M18/4/CHEMI/SP2/ENG/TZ2/04.b"></p>
</div>
<div class="specification">
<p>Enthalpy changes depend on the number and type of bonds broken and formed.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Hydrogen gas can be formed industrially by the reaction of natural gas with steam.</p>
<p> CH<sub>4</sub>(g) + H<sub>2</sub>O(g) → 3H<sub>2</sub>(g) + CO(g)</p>
<p>Determine the enthalpy change, Δ<em>H, </em>for the reaction, in kJ, using section 11 of the data booklet.</p>
<p>Bond enthalpy for C≡O: 1077 kJ mol<sup>−1</sup></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>Outline why no value is listed for H<sub>2</sub>(g).</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>Determine the value of Δ<em>H</em><sup>Θ</sup>, in kJ, for the reaction using the values in the table.</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>The table lists standard entropy, <em>S</em><sup>Θ</sup>, values.</p>
<p><img src="images/Schermafbeelding_2018-08-08_om_15.07.35.png" alt="M18/4/CHEMI/HP2/ENG/TZ2/05.c"></p>
<p>Calculate the standard entropy change for the reaction, Δ<em>S</em><sup>Θ</sup>, in J K<sup>−1</sup>.</p>
<p>CH<sub>4</sub>(g) + H<sub>2</sub>O(g) → 3H<sub>2</sub>(g) + CO(g)</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>Calculate the standard free energy change, Δ<em>G</em><sup>Θ</sup>, in kJ, for the reaction at 298 K using your answer to (b)(ii).</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>Determine the temperature, in K, above which the reaction becomes spontaneous.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">To determine the enthalpy change of combustion of methanol, \({\text{C}}{{\text{H}}_{\text{3}}}{\text{OH}}\), 0.230 g of methanol was combusted in a spirit burner. The heat released increased the temperature of \({\text{50.0 c}}{{\text{m}}^{\text{3}}}\) of water from 24.5 °<span class="s2">C </span>to 45.8 °<span class="s2">C</span>.</p>
</div>
<div class="specification">
<p class="p1">Methanol can be produced according to the following equation.</p>
<p class="p1">\[{\text{CO(g)}} + {\text{2}}{{\text{H}}_2}{\text{(g)}} \to {\text{C}}{{\text{H}}_3}{\text{OH(l)}}\]</p>
</div>
<div class="specification">
<p class="p1">The manufacture of gaseous methanol from CO and \({{\text{H}}_{\text{2}}}\) involves an equilibrium reaction.</p>
<p class="p2"><span class="Apple-converted-space"> </span>\({\text{CO(g)}} + {\text{2}}{{\text{H}}_2}{\text{(g)}} \rightleftharpoons {\text{C}}{{\text{H}}_3}{\text{OH(g)}}\) <span class="Apple-converted-space"> </span>\(\Delta {H^\Theta } < 0\)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the standard enthalpy change of this reaction, using the values of enthalpy of combustion in Table 12 of the Data Booklet.</p>
<div class="marks">[3]</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 standard entropy change for this reaction, \(\Delta {S^\Theta }\), using Table 11 of the Data Booklet and given:</p>
<p class="p1">\({S^\Theta }{\text{(CO)}} = 198{\text{ J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}{\text{ and }}{S^\Theta }{\text{(}}{{\text{H}}_{\text{2}}}{\text{)}} = 131{\text{ J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\).</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">Calculate, stating units, the standard free energy change for this reaction, \(\Delta {G^\Theta }\), at 298 K.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Predict, with a reason, the effect of an increase in temperature on the spontaneity of this reaction.</p>
<div class="marks">[3]</div>
<div class="question_part_label">b.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">1.00 mol of \({\text{C}}{{\text{H}}_{\text{3}}}{\text{OH}}\) is placed in a closed container of volume \({\text{1.00 d}}{{\text{m}}^{\text{3}}}\) until equilibrium is reached with CO and \({{\text{H}}_{\text{2}}}\). At equilibrium 0.492 mol of \({\text{C}}{{\text{H}}_{\text{3}}}{\text{OH}}\) are present. Calculate \({K_{\text{c}}}\).</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.iii.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Consider the following reaction.</p>
<p class="p1">\[{\text{2C}}{{\text{H}}_{\text{3}}}{\text{OH(g)}} + {{\text{H}}_{\text{2}}}{\text{(g)}} \to {{\text{C}}_{\text{2}}}{{\text{H}}_{\text{6}}}{\text{(g)}} + {\text{2}}{{\text{H}}_{\text{2}}}{\text{O(g)}}\]</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The standard enthalpy change of formation for \({\text{C}}{{\text{H}}_{\text{3}}}{\text{OH(g)}}\) at 298 K is \( - 201{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\) and for \({{\text{H}}_{\text{2}}}{\text{O(g)}}\) is \( - 242{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\). Using information from Table 11 of the Data Booklet, determine the enthalpy change for this reaction.</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">The standard entropy for \({\text{C}}{{\text{H}}_{\text{3}}}{\text{OH(g)}}\) at 298 K is \({\text{238 J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\), for \({{\text{H}}_{\text{2}}}{\text{(g)}}\) is \({\text{131 J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\) and for \({{\text{H}}_{\text{2}}}{\text{O(g)}}\) is \({\text{189 J}}\,{{\text{K}}^{ - 1}}{\text{mo}}{{\text{l}}^{ - 1}}\). Using information from Table 11 of the Data Booklet, determine the entropy change for this reaction.</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">Calculate the standard change in free energy, at 298 K, for the reaction and deduce whether the reaction is spontaneous or non-spontaneous.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Consider the reaction:</p>
<p class="p1">\[{\text{CuS(s)}} + {{\text{H}}_2}{\text{(g)}} \to {\text{Cu(s)}} + {{\text{H}}_2}{\text{S(g)}}\]</p>
<p class="p1">Given:</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-11-02_om_18.30.58.png" alt="N11/4/CHEMI/HP2/ENG/TZ0/05.b"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Deduce and explain the sign of the entropy change for the following reaction.</p>
<p class="p1">\[{\text{CO(g)}} + {\text{2}}{{\text{H}}_{\text{2}}}{\text{(g)}} \to {\text{C}}{{\text{H}}_{\text{3}}}{\text{OH(l)}}\]</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">Suggest why the \(\Delta H_{\text{f}}^\Theta \) values for \({{\text{H}}_{\text{2}}}{\text{(g)}}\) and Cu(s) are not given in the table.</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">Determine the standard enthalpy change at 298 K for the reaction.</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 standard free energy change at 298 K for the reaction. Deduce whether or not the reaction is spontaneous at this temperature.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the standard entropy change at 298 K for the reaction.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Estimate the temperature, in K, at which the standard change in free energy equals zero. You should assume that the values of the standard enthalpy and entropy changes are not affected by the change in temperature.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.v.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Draw the Lewis structures, state the shape and predict the bond angles for the following species.</p>
</div>
<div class="specification">
<p class="p1">Consider the following Born-Haber cycle:</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-14_om_07.05.32.png" alt="M09/4/CHEMI/HP2/ENG/TZ1/06.b"></p>
<p class="p1">The magnitudes for each of the enthalpy changes (<strong>a </strong>to <strong>e</strong>) are given in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\) but their signs (+ or –) have been omitted.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>\({\text{PC}}{{\text{l}}_{\text{3}}}\)</p>
<div class="marks">[3]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>\({\text{NH}}_2^ - \)</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>\({\text{Xe}}{{\text{F}}_{\text{4}}}\)</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">State the names for the enthalpy changes <strong>c </strong>and <strong>d</strong>.</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">Deduce which <strong>two </strong>of the enthalpy changes <strong>a </strong>to <strong>e </strong>have negative signs.</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 value for the enthalpy of formation of potassium bromide.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain why the quantitative value for the lattice enthalpy of calcium bromide is larger than the value for the lattice enthalpy of potassium bromide.</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">Compare the formation of a sigma \((\sigma )\) and a pi \((\pi )\) bond between two carbon atoms in a molecule.</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">Identify how many sigma and pi bonds are present in propene, \({{\text{C}}_{\text{3}}}{{\text{H}}_{\text{6}}}\).</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">Deduce all the bond angles present in propene.</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 class="p1">Explain how the concept of hybridization can be used to explain the bonding in the triple bond present in propyne.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.iv.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">The electron configuration of chromium can be expressed as \({\text{[Ar]4}}{{\text{s}}^{\text{x}}}{\text{3}}{{\text{d}}^{\text{y}}}\).</p>
</div>
<div class="specification">
<p class="p1">Hydrogen and nitrogen(II) oxide react according to the following equation.</p>
<p class="p1">\[2{{\text{H}}_2}{\text{(g)}} + {\text{2NO(g)}} \rightleftharpoons {{\text{N}}_2}{\text{(g)}} + {\text{2}}{{\text{H}}_2}{\text{O(g)}}\]</p>
<p class="p1">At time <span class="s1">= \(t\)</span> seconds, the rate of the reaction is</p>
<p class="p1">\[{\text{rate}} = k{\text{[}}{{\text{H}}_2}{\text{(g)][NO(g)}}{{\text{]}}^2}\]</p>
</div>
<div class="specification">
<p class="p1">When concentrated hydrochloric acid is added to a solution containing hydrated copper(II) ions, the colour of the solution changes from light blue to green. The equation for the reaction is:</p>
<p>\[{{\text{[Cu(}}{{\text{H}}_2}{\text{O}}{{\text{)}}_6}{\text{]}}^{2 + }}{\text{(aq)}} + {\text{4C}}{{\text{l}}^ - }{\text{(aq)}} \to {{\text{[CuC}}{{\text{l}}_4}{\text{]}}^{2 - }}{\text{(aq)}} + {\text{6}}{{\text{H}}_2}{\text{O(l)}}\]</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain what the square brackets around argon, [Ar], represent.</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">State the values of \(x\) and \(y\).</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">Annotate the diagram below showing the 4s and 3d orbitals for a chromium atom using an arrow, <img src="images/Schermafbeelding_2016-10-27_om_08.08.15.png" alt="M11/4/CHEMI/HP2/ENG/TZ2/03.a.iii_1"> and <img src="images/Schermafbeelding_2016-10-27_om_08.09.21.png" alt="M11/4/CHEMI/HP2/ENG/TZ2/03.a.iii_2">, to represent a spinning electron.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-10-27_om_08.10.12.png" alt="M11/4/CHEMI/HP2/ENG/TZ2/03.a.iii_3"></p>
<div class="marks">[1]</div>
<div class="question_part_label">a.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Explain precisely what the square brackets around nitrogen(II) oxide, [NO(g)], represent in this context.</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">Deduce the units for the rate constant \(k\).</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">Explain what the square brackets around the copper containing species represent.</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">Explain why the \({{\text{[Cu(}}{{\text{H}}_{\text{2}}}{\text{O}}{{\text{)}}_{\text{6}}}{\text{]}}^{2 + }}\) ion is coloured and why the \({{\text{[CuC}}{{\text{l}}_{\text{4}}}{\text{]}}^{2 - }}\) ion has a different colour.</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">Some words used in chemistry can have a specific meaning which is different to their meaning in everyday English.</p>
<p class="p1">State what the term <em>spontaneous </em>means when used in a chemistry context.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Hydrazine, N<sub><span class="s1">2</span></sub>H<sub><span class="s1">4</span></sub>, is a valuable rocket fuel.</p>
</div>
<div class="specification">
<p class="p1">The equation for the reaction between hydrazine and oxygen is given below.</p>
<p class="p1">\[{{\text{N}}_2}{{\text{H}}_4}({\text{l)}} + {{\text{O}}_2}({\text{g)}} \to {{\text{N}}_2}({\text{g)}} + 2{{\text{H}}_2}{\text{O(l)}}\]</p>
</div>
<div class="specification">
<p class="p1">The reaction between \({{\text{N}}_2}{{\text{H}}_4}({\text{aq)}}\) and \({\text{HCl(aq)}}\) can be represented by the following equation.</p>
<p class="p1">\[{{\text{N}}_2}{{\text{H}}_4}({\text{aq)}} + 2{\text{HCl(aq)}} \to {{\text{N}}_2}{\text{H}}_6^{2 + }({\text{aq)}} + 2{\text{C}}{{\text{l}}^ - }({\text{aq)}}\]</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">(i) <span class="Apple-converted-space"> </span>Draw the Lewis (electron dot) structure for N<sub><span class="s1">2</span></sub>H<sub><span class="s1">4 </span></sub>showing all valence electrons.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>State and explain the H–N–H bond angle in hydrazine.</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">Hydrazine and ethene, C<sub><span class="s1">2</span></sub>H<sub><span class="s1">4</span></sub>, are hydrides of adjacent elements in the periodic table. The boiling point of hydrazine is much higher than that of ethene. Explain this difference in terms of the intermolecular forces in each compound.</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>The enthalpy change of formation, \(\Delta H_{\text{f}}^\Theta \), of liquid hydrazine is \({\text{50.6 kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\). Use this value, together with data from Table 12 of the Data Booklet, to calculate the enthalpy change for this reaction.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>Use the bond enthalpy values from Table 10 of the Data Booklet to determine the enthalpy change for this reaction.</p>
<p class="p1">(iii) <span class="Apple-converted-space"> </span>Identify the calculation that produces the most accurate value for the enthalpy change for the reaction given and explain your choice.</p>
<p class="p1">(iv) <span class="Apple-converted-space"> </span>Calculate \(\Delta {S^\Theta }\) for the reaction using the data below and comment on its magnitude.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-26_om_09.01.06.png" alt="N10/4/CHEMI/HP2/ENG/TZ0/07.c"></p>
<p class="p1">(v) <span class="Apple-converted-space"> </span>Calculate \(\Delta {G^\Theta }\) for the reaction at 298 K.</p>
<p class="p1">(vi) <span class="Apple-converted-space"> </span>Predict, giving a reason, the spontaneity of the reaction above at both high and low temperatures.</p>
<div class="marks">[16]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">The reaction between \({{\text{N}}_{\text{2}}}{{\text{H}}_{\text{4}}}{\text{(aq)}}\) and HCl(aq) can be represented by the following equation.</p>
<p class="p1">\[{{\text{N}}_2}{{\text{H}}_4}({\text{aq)}} + 2{\text{HCl(aq)}} \to {{\text{N}}_2}{\text{H}}_6^{2 + }({\text{aq)}} + 2{\text{C}}{{\text{l}}^ - }({\text{aq)}}\]</p>
<p class="p1">(i) <span class="Apple-converted-space"> </span>Identify the type of reaction that occurs.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>Predict the value of the H–N–H bond angle in \({{\text{N}}_{\text{2}}}{\text{H}}_{\text{6}}^{{\text{2}} + }\).</p>
<p class="p1">(iii) <span class="Apple-converted-space"> </span>Suggest the type of hybridization shown by the nitrogen atoms in \({{\text{N}}_{\text{2}}}{\text{H}}_{\text{6}}^{{\text{2}} + }\).</p>
<div class="marks">[3]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>Ethane-1,2-diol, HOCH<sub>2</sub>CH<sub>2</sub>OH, reacts with thionyl chloride, SOCl<sub>2</sub>, according to the reaction below.</p>
<p style="text-align: center;">HOCH<sub>2</sub>CH<sub>2</sub>OH (l) + 2SOCl<sub>2</sub> (l) → ClCH<sub>2</sub>CH<sub>2</sub>Cl (l) + 2SO<sub>2</sub> (g) + 2HCl (g)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the standard enthalpy change for this reaction using the following data.</p>
<p><img src="data:image/png;base64,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"></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>Calculate the standard entropy change for this reaction using the following data.</p>
<p><img src="data:image/png;base64,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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>The standard free energy change, Δ<em>G</em><sup>θ</sup>, for the above reaction is –103 kJ mol<sup>–1</sup> at 298 K.</p>
<p>Suggest why Δ<em>G</em><sup>θ</sup> has a large negative value considering the sign of Δ<em>H</em><sup>θ</sup> in part (a).</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</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>Hydrogenation of propene produces propane. Calculate the standard entropy change, Δ<em>S<sup> </sup></em><sup>θ</sup>, for the hydrogenation of propene.</p>
<p style="text-align: center;"><img 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"></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 standard enthalpy change, Δ<em>H </em><sup>θ</sup>, for the hydrogenation of propene is –124.4 kJ mol<sup>–1</sup>. Predict the temperature above which the hydrogenation reaction is not spontaneous.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>Millerite, a nickel sulfide mineral, is an important source of nickel. The first step in extracting nickel is to roast the ore in air.</p>
</div>
<div class="specification">
<p>The reaction for the formation of liquid tetracarbonylnickel is shown below:</p>
<p style="text-align: left;">\[{\text{Ni(s)}} + 4{\text{CO(g)}} \to {\text{Ni(CO}}{{\text{)}}_4}{\text{(l)}}\]</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Formulate an equation for the oxidation of nickel(II) sulfide to nickel(II) oxide.</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>The nickel obtained from another ore, nickeliferous limonite, is contaminated with iron. Both nickel and iron react with carbon monoxide gas to form gaseous complexes, tetracarbonylnickel, \({\text{Ni(CO}}{{\text{)}}_{\text{4}}}{\text{(g)}}\), and pentacarbonyliron, \({\text{Fe(CO}}{{\text{)}}_{\text{5}}}{\text{(g)}}\). Suggest why the nickel can be separated from the iron successfully using carbon monoxide.</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 standard entropy change, \(\Delta {S^\theta }\), of the reaction, in \({\text{J}}\,{{\text{K}}^{ - 1}}\), using the values given.</p>
<p style="text-align: center;"><img 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"></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>Calculate a value for \(\Delta {H^\theta }\) in kJ.</p>
<p style="text-align: center;"><img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAQ4AAABwCAYAAADv7p6gAAAbV0lEQVR4Ae1dDXQT15X+JLJAWeNQSlpGkA0Hu5imOKWRF1JCN7IBuwmlsKRAQmKZmG1hCwkNC3ZMkxwChBbkmjSQHiAr14mTUyDIa0KSxSYyzi5JC5UIqbNr5DjUbI1EFwrY1hL+pLdnRiN5ZjQjy39YY985R0fz3rvvvvu+++bOe/c96RoYYwx0EQKEACHQCQSMnaAlUkKAECAEBATIcNBAIAQIgU4jcFuna1CFhEfAYDAkvIwkoP4QkHo1yHDoT39xSSxVclwViIgQiIGA8mVES5UYYFERIUAIqCNAhkMdF8olBAiBGAiQ4YgBDhURAoSAOgJkONRxoVxCgBCIgQAZjhjgUBEhQAioI0CGQx0XyiUECIEYCJDhiAEOFREChIA6AnSOQx0Xyk1gBJqbm3HlyhWMGjUKI0eOTGBJ+69oNOPov7rtdz1rbv4Tvmcx484770RaWhq+8pWv4O+mzsaHf2rpd33t3Q5dRUPpQhgMy1Hhu9mlpshwdAk2qnTrEQjil+uWouqDE1j89PNwOByY+4Mc/Pn4e1g2fx0agrdeIn222IqGig1YtvStbolPhqNb8FHlW4VAc/NneKn8CH6yfQ/eLHkB8+fPR+WBQ1i79mmMNhzC2x/7b5Uoum7npns3Hj4wBDnWSd3rB/9/HHT1LwQA9F2H2k6zTz67xAJaErQ4WQEHBphZgfO8guo8cxaY+f+HYVyBk7WIpR6PR8jj82N9XDcU7MLJQD2zZ3MM2XbmURPM62BWgfcy5vBqMQkza/++4bKxFL5eio1ptt1O3ot3N5jXsSyEjdXBvDdcmjiF5GxjLpuFAfH3VzmmaMbRPbtLtWUIBNF67CXkr3oJbr/62iF4rgknfXyl8UgbmySrjeAFNJ30AuCQnmZCuJR3gm7fXizQfu+fnhaWKfxSRViuzJ0j5Fu3vgmzlqv/L/+ND6p94CaPw+iBMOJvM/NvDtWPJkZyTXSYGggwdggCEfQQAkEP3ni2DO737NjxwQUVpkH4mxtRx5dwqRg3erCcxu+Fp463KiZMHjcK4cHJ75ysXPk0Zj8wCR/u3YNPWoyYMmUK/P7zOHDgIL4+cTF+9i+L5bwiqSBa6104DDNyc+5BciSfbrqDQFg33eFBdQkBAEH4Pz6Ek3c9gLtxERWvvIezUZOOK/jsxO8gTDjSUzE2ST78Ys5GYETRi9vR1ubDhvx/FHZW8vKWYzg3Hi+9uQkT5KwkGrmOc02N8KnNcCRU8tvr8NW8gEyDAQbTUpSeapUXdyZ1043iVAMMhkwU17hxuDgPJp6vIQeFFafgRysaDm9DnonPMyGzsBxu33VJC0H4G2qxP1LPAENmIUprGtCnXp1eXHgR6z5CQLkevSViBJrY/hVPsqLD9eydvLFsMKaxX9Z/oWj6f5jDmiKsv6U+jBBRgLU4ixjH+wy4IuZsUXNGMPbXv/6VORwO4VNVVcWuXLmiaEOR7Mi/wZPLfBz/x7zO9cwi+DxmM5vrkoJhezIuH8cNF7OlaPlmstnqgsWhPgvthejasQmwtvoyZhV8QkoeHLPYjrE2QRyFj6NdxB67U44pTTstMXl0Swh0iECw0YmPku7DkqwJ+G7uQxiGP6L03zyQTTpu/i9Of/i5wMu3dQZuF968/JuW/wzC7TN+rjkbCQvAL1v4HRX+k52djS996UvhIvVvcfkTn3/jBi5/+iaeeXw9apGNIucurDaPUOfbhVzOWob6tgBY2zHYLByAapSUD8Wm+hYwdgku22yBq89xAp/xxyuCDdi3qgiv+4BIXXYNXud6WOBD7doN2Om+3AVJul+FDEf3MSQOuIDafZ9h9AMzMcFoRPJUK1Z+cxAat/waNa0S03H+DOpCdiMmZvE95DFZiIVBtLreR7kvXv9GKZZm/zj0oOYvwwrLmIifJZ7WYtOYkZs3GxP55VnS3cicnSaQc7mP4YcTec/LCHwr04IUCZNg40fYW80v7BZg088WhepiMLisFXiuwAzgXew88jm6doRL0lAXbslwdAE0qiJHIHi2FhV/GQ3Ld0eFCpLMyP3nybjmfxt2iZP0pvc0PhQoFsDu+ULu9Q/Uw57Nv4XlOyryljqb6op/I9SGr7QUv/24J9/mw3HH7UOjOjDsjtsxLCo3lBFsuwjBzqZMwbfGS+sOxe13DBeIPq87g/Ma9XszmwxHb6I7IHhfRePB3yP4zVkwR5ydQ5E664e4L/AF9mzYI57qvInzZxpDD0IndlS6BWGwCUf3HgWiHjwtrhwstt+h2VkEDu9i7boKUXY/3MWZwpIqtdh9y97wxuEjQzOQz4/jk9NXJUJfRcv5NiGdkn4X7pCU3KpbMhy3Cun+2k7rUZT/4cuYs3iibFpvnPAINv1oBIa49uKdBn7QX4X3tCeEQqd3VKTgBeE/9Zq4C5GBwhq1bV+RPuzfePhefF3rjIeUNX6AJx/LwBjLMuzInwRUb8OWyjMI4jYMHxl6PD9/9x38h7DrcRmfHKkNGcL7x8MUF39ZYx0mjKnTsEiYhb2FZ1/ci1PC2Rh+x+cVbNzqBjAbyzNT0AtNdyxbhxREQAhoInAdZw/X4PKELHw3WfkOGom/X/R9DMN/YUNJLVpxCWfq/ixwivZh3MRfPj2Oar5UbTYia/8KPO+U4XXfMji8v8eWLHF5JKPhE2H/RgpmTf16585vGO9E9k/yYcGnKN1egY/9g5Ga8wjy+ZVU7XrMMA2BwfBlZKx9V3h4bU9lgS/q8cs4AQs3r4UFgO/1JfjG8EEwGIbANIN33vKzo+exvAedt52RX6ntztQl2oGOQPBzVP5iO3Y8Mw3DZTsk4i7JzFdwCS1o2bsH/3nxnLijovYgx56NSGG+6d6JRWtrAezCw6aVMX7dGfZv3IsHJnV2Mm9EkvkJFPO7HLU2rNvXAIyZh1/VHoJN8hsPzmqDw/Vqj+68SPsK8HKswkHPEbxls7YbJ0sB7M5aHFwzJXK6Vl6v91MGfqO395uhFm4lAvz2Zv9VK+9vmIOMtWlweHdgPtcXE/Vbqc3EaEs5pmjGkRh6ISkIAV0hQIZDV+oiYQmBxECADEdi6IGkIAR0hQD5OHSlrviEVa5H46tFVISANgLKMUUzDm2sqIQQIAQ0ECDDoQEMZRMChIA2AmQ4tLGhEkKAENBAgAyHBjCUTQgQAtoIkOHQxoZKCAFCQAOBqGN3vPeULv0jQHrUvw4TuQdRhoMXtv8eV05kVfScbMqts57jTJwGKgLKFxEtVQbqSKB+EwLdQIAMRzfAo6qEwEBFgAzHQNU89ZsQ6AYCZDi6AR5VJQQGKgJkOAaq5qnfhEA3ECDD0Q3wqCohMFARIMMxUDVP/SYEuoEAGY5ugEdVCYGBigAZjoGqeeo3IdANBMhwdAM8qkoIDFQEetBwtKKhZi+K89LFIMIGGEx5KN5fiwYhkIwS4iD8DbWoKC1EZuSv9U3ILHwVB9w+ebBiZVUE4Xe/jLzi4/BHlWllXIa7+DEsreAD7NClfwT4MbANmaZ18vi0kY7FKA/64H5NOu5yUFj6DtxCoKUIg+ib4CmU5pjax3dk3C5EqRB0KrpKf83pGcPhP4WKwgVI23gCdzxVjQBjYCyAttrFwMEnkTbnV3DLjAcfjWoj5qQ9iQMXs7CLj+DN1wm4UTy1BRVzzJix7jB8Wk94ay02LmrA3EcndyKuxAiYf7wUowpsqDx7vb/qc4D0i4/mtgcb170JPsJK9BWr/DrOVr6IOWXAEpdXGKsB7/MY/UER5rx0FK3RzNpzhMhw06Pj3rJ9yJ8gje3aXqXf3vFxVaRX6Ddu0pyO7i8xl202A7eCOZqvRRO3HWM2C8e4AidrEUoDrM1VwiyYxPIdTSwQVaOjcr69eSzbXq9SN4qZIuML5rEvkMiiKO4nyc7rUEcdD3iZq6yIWW1HmMu+gIErYs4WySjqsLye2bNTosZPwGNn2UpeMlgCrMVZxLiYNLIK/SqhHFPdn3G0nsC+khPI3rQS88YMjjawSZPxWPG/YkfOWDG26EUc3/cmarOfRuG8u2TxRkOV+ehVuXiuYAhKV+5Cbat82hE8W4Nfl/wNFk0fJ6/rb8Dh4jyYhOljOvKKy1FamAODbCo7VAjl92D5TuwfYFPLaMXoMecqGsrWYI0nE79YfR9C8dql/eioHIAwaxiByeNGycaPcfQ4TEY1qlwXpQwl92JkOJW4txKiAXPbTcMRjs9pilJEO4KDwZkfwvysCaFlResfUVXuRnT80PYawEhk5GSD8ykVeRWNVXtQmv49TE+VTA2DZ1Cx6mHk1WWhRlj2fIiikbV4dqsQjVTKGEbubtyffgJ7jzaRr0OGjB4Sg2F6cBsObp4FTnXkdlQOBM814aRPq69enGy6oDEu/Gj2nAY3+s+oeCLsx+NfUBUd+0a0mtNxvir88fcnHJ9zPNLGJsVVLaQ4Dulppjj8E0pFisqbPA6jI5IH0Vq7Cyv//QHs2PwoJibxBcmYmL8FbxSYo2UyjsK4ySNQvfcjNMonM9G0lJNgCBiRxH01xrjpqDwIf3Mj6rrSq+AFNJ28jLQx05D3m7qQT459iJ+Nd2HN4lcUPryuNKCvOpHHTxdii8qTG52LcFVVw5d+LyZx0qVSEsamjVfplphf14hmmcNWhZSyCIEwAsaJyK9qxBHZbCcZE2bOxBRPKDD1QHoPddNwDMbocangcBqe5vg2RoW1JOdDnccbx1aqYgkkrE+vhFVJ37pH4CZ8FctVtjf5aPeST2ox3Dd7orNGJI1NRXpPsArzSDIhLR1xjudwJf1/d9NwGJGcMRO5nHJJoQCG3zc/IJ7nSL4HOblm+E424ZymiRZnEVw2cjJGtjMTlDSsPU13OkfgNnDzd4rTfn4LX+PTuAZm1T+57Hz3Qy8urXqKF5UWGeXLHMtdgyP5XixcfS+qn92hfj7C/ylKn8jGnLcv4m+H8XZqJKYsfAyW6m3YUql2GIs/uFOOjVuvIX/HMliSJbZN9E/IZyuiIzVq6RHyh0R3Sswn73g0NAMhR3j5XI5ygoZ8b9q+umBDKXIMGSisuSBHSZgFm5Cbcw+S5SX9O6XcbFbu1yrLVdNtdcxuncRgKWBlLq94viLA2jyHmE3IX8+cXukZj2vM61wvnOWw2g4xT5u4D8/vwTtszMpxzFJUzbyS7flQu6FzGMi2M4+0LNDEHPlmZilwiLxamMdRxCyAyj6/+j6+ar90mtklHequr+JY0DxXoVV+jTU7VjCOy2f2evFkkfcoK7FO6uB8T+i8EmctY/Xh8cpaWL09n6XkO1izdDzqDsuOBVaOKX56KLuUBLLCWAn+oa/czQosHON5CB/OymxvHWk3DIr6Aa+LVdoLQg+4UIdjloLdrDJifBQV+GSLkxVwC5jd84W8sM3Dqm1Wxgl8JjGrzcEctnlRhkM46AOV+nJuuk51WYe66rWWYQh3IkZ5m4c5ZeMuNF5ckpdbaJxAbkwiLzZxfCObFdidmuM7LEl/+FaOqaho9Yn/1/r8b06ewBoU4eCaKTG25q6iodQKi2c5Tm3JEqeRann9b0aZ+Drsf5j39x4px5TEgaCXrvO/OXkSU3a+jmrhNydBtNasg8m0FKWnwr80uA7fcTtefPYKVi+8t33t2foR7Ju/ih1PTW/P00u3SU5CIIEQ0KHh4M93TcdPd3M48NuT8MOIZMuTOLjjG/gg63ZxG28IzK98gbkHX8Vq8wgR7stw77bjwta16kfjE0gpJAohkOgI6HCpkuiQ9r18ymll30tEEugdAeWY0ueMQ+9aIPkJAZ0jQIZD5wok8QmBvkCADEdfoE5tEgI6R4AMh84VSOITAn2BABmOvkCd2iQEdI4AGQ6dK5DEJwT6AgHV3xzyWy906RsB0qG+9Zfo0qsaDv7nzXTpFwHlnrt+e0KSJwoCyhcRLVUSRTMkByGgIwTIcOhIWSQqIZAoCJDhSBRNkByEgI4QIMOhI2WRqIRAoiBAhiNRNEFyEAI6QoAMh46URaISAomCABmORNEEyUEI6AgBMhw6UhaJSggkCgJkOBJFEyQHIaAjBMhw9ISygqdQmmOCIacUDZpBpnqiIeJBCCQGAt03HK01KDQZYMjcph54Vyg3Iaf0VCgKuPiQmQprEP5r4RAU/L+X/xTF7styZPwNqNlfjDy+DTEsoCmvGPtrGtRDSPL0Fa+iMNMUoTdkFqL0gBs+2UPNB37ahpylFTgry5c3r53SkDdSgS9/DEsr1IJORYjopjMI8BEBXytEZjg8ZGYhXnP75NHl/Q04XJwHU2SsbMPhBvlIA1rRcHhb+5gy5aH4sMZ4ksqnbN+Qg8LSdyhavRSjTt/X2rBmp0v9YZYyE4L3euGNhCzgC/l/Kt+KRfX/gEe/Hf5z4SD8DRUonPMQNv7ha3jKfU0MEdiC2scH4eDjFswpPi5rL+g7jHVzLHj8gB8zd50S6a/BWzwVFyuWwDTjBdT4rovSGJFkzkXhqF14XjWinFRo5b2avEoa/t/Yl2JUgU09wp2SnNKxEQieQcWPFuPlQC4OCqEiW+B5chDKMlahrOFqqC5Ps2oxNp+fi9q2ABhrQe3c89ictljyQrqOsxXrYNl8HnNrW8BYAG21c3F+80NR40ku0HWcrXwRc8qAJS4vAowh4H0eoz8owpyXjipegvKa/TKlDBajDLyiLI9KCwGSODbNMo1xmM1srktyErE8214vRniTFwuptmPMZlksD7Ik5HGMU42SFWBtrhJmgZkVOM+HGMakZ4xplAuBdzSjganIymcp5Q3w0eE4FhVhjoWCAnEFThaKGabBr4ezO63DHm6/59kFWIuziHFRejrPnAVmMWiSBo2om4gOhPEoGTeCsDGCN4U7I/BJYcpx3KXxE+apo2/lmOr+UkU0p0mLi/By/hmsXfMb9SVL2OxGLVWu42z16ygZPAPTU4eKVEG0Hq9ESe10bCp8CGOipDQi6duPoLjyOeSMHRyascSkB5CUgR8/twQo3YyXa9vjfxpTZ2DZg9XYsr9BPuUNyxv1rSZvFJGYMRSpOY/gwfKd2B9+K2qRUn4MBEJByJE7ExnSWMIYhawtLnH2akRy1mZ4vZuRJaNRsE3OwhavC1uyRikKOkgKMWJHYPK4UbKAy0IQa1SjynWxAwb9qzjqkexy9walYt6GF5DviXPJEm4oeBpVuw4hfdE0pEakCUerT8W40bxhULmMHMxz5yJrAh/qNw56Pv5Kxkzkcm6UV/2xfWpp/Bom3T8e1Xs/QmM8vg5VeVXkE7OM3N24P/0E9h5titMwafMasCXBC2g6eRnpacPgrSmN+K9MeWr+CwlKQR+O/+rneLZufowgXOHgXfXRQc6lrM414aRPkiG79UYFsZYV98NE5FHtib4Zx3wfG3bMh2ftBuxUOjm1GlCz5MJA8QLxRpTvJL3vZBPORYzEYIwelwqu+hCONoprZS1Z+Xw1eWPRG0dh3OQR8RumWLwGapmA+RX4y4uw6v078VOnV/BNNBSNxBsPrUOFENFPCg4f6nMhDINMmLr6BGatfRTf4aJfQKEI9ENgmroSh2ctx7LvcLLZRDvHIPzNjahrzxjwdz1qOIDBGDNvLXbEs2QRoQ8Klnw80sYm9ZEyjEgam4p0nIan2d+hDJ2XNwlj08YDdY1o9kesVYftEIESAR8+GpyL7ZtmgRNGrRFJE2cj7+HfY+XLSufkUEzI3yc4xwPeEox5ewHMP4rePTNOyEcV72gNNOONMW9jqnm1ihFSykFpHoEeNhw8x7s6sWTRsOTCW9oU/8PWSXpu8jiM7lLPNeSlsdQFBG7CV7G8fcs8vMWq/E4thvtmiH203kJGWT6DlIti5GbgGcG3tQdVWjNK4xhkPVOIAlRgV9VplSVl+OUi5z2QU116fDoCTLZkOXY+BrmWQkYiIycbnK8RTefC26fRbII+Nw4I5znioQ+i1fU+yn1m5Obc08Wg01ryRstGOR0hcBu4+TvFLXOm/d24BuaR9yAn19wRww7K45lR+lDn8cq2+MNMBScoF04pv01RTlMlRX9L94rhkC1Z1u/E8RiohRSiVKoRyVPmYbXlKJ7d8p7KAa0g/KdewxPmJXj78hAM4x2fMel534QLuzeWAfnr8JRF6lEPzyLky6Xg2QosNWWi2C1fvqjKG5nxfIijUYeN/Gj2nI7fXxMDq4FblIy0qfcB5e/D1Spd7vHYnoVl1iSYjKJfw7QONTIaETUuGzkZIxHya2SgsKZ9Z60d1xgvlSQT0tIvRzlBO790bW9N13fKrWTlfq2yPCod45xGoNnB8jkwgGvf/1buq2vsjzMWYG31ZczKccxS8Dpzea+JTbcwT3VJKL+omnkD7RIFvNWsyMIxzlrCqj3hkxPXmNflYDbrJAbLeuaM8AnXE/fws+3ME+YlnvkALMzmagsThr5V5RV5gO+r4oyAKr2cZU+nOq3DnhagN/gJOklhFtsxFtLINeY9toNZU1YwR7M4NgQaM7Pa60QaxkJjQpp3iblssxlnLWP1baLCA83MWZQtz4vqwzXW7FjBOC6f2etDYyvgPcpKrJPEcyRRFfpVhnJM8VNE2aUkkBWqJWIYDsZEsGMZDiYe3JE+uJJ2Al4Xq7QXMIvwUPIPJhhntbG3nJ7I4JCQ8yOFuSp3swILJ9Dy9LAUMHulS2ZkInWUD3agiTnyF7CiQ2+xn6eoGA4teQNedqzEyjiF4RAOCGGB/HBbpPHeuem0DntHjJ7n2uZh1TYe4/A4kL4gQs3x48UhoRF0rxwr/Bhx2JhVeKnxvLJZgd3JPGFDwhgL6Q1yo9DmYU7ZWJzErDaH5KXW811OFI7KMdV9w9ETPRPeFPOiT532BO8OeMhP/vFvo8WhN9YNF7OpGo7wydF45KWTox3AT8U6QSAxDYf4Fk9RPV7em8jyR5azWb6jKXQc3utgVsnMRpitYBlzeG8ohAjNkjqUl5+NSafSCi69lVQqubfaIb4DBwHlmOol52hn3T5GJFtWYPfXavDbjxW/ju0sq7jp+V/HlmPLhWXYMO+u0L40Nx+vCT+gYmA3XLClWGBzFWM+p4xbFY+8l+HebceFrWsxb0z04aO4xSRCQiABETDwNlMqF0UBE9G46UbxxDXA3oNYY+6rw2lSzcR/TzqMHyuijA8B5ZgiwxEfbrqiUipZV8KTsAmJgHJMJchSJSGxIqEIAUJAAwEyHBrAUDYhQAhoI0CGQxsbKiEECAENBMhwaABD2YQAIaCNABkObWyohBAgBDQQIMOhAQxlEwKEgDYCypNNAiW/9UKXvhEgHepbf4kufZThUJwHS3T5ST5CgBDoAwRoqdIHoFOThIDeESDDoXcNkvyEQB8gQIajD0CnJgkBvSPw/waRvGI/5WLbAAAAAElFTkSuQmCC"></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>Use your answers to (c)(i) and (c)(ii), to determine the temperature, in °C, at which the decomposition of liquid tetracarbonylnickel to nickel and carbon monoxide becomes favourable.</p>
<p><br>(If you did not get answers to (c)(i) and (c)(ii), use \( - 500{\text{ J}}\,{{\text{K}}^{ - 1}}\) and \( - 200{\text{ kJ}}\) respectively but these are not the correct answers.)</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why experiments involving tetracarbonylnickel are very hazardous.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>This question is about ethene, C<sub>2</sub>H<sub>4</sub>, and ethyne, C<sub>2</sub>H<sub>2</sub>.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Ethyne, like ethene, undergoes hydrogenation to form ethane. State the conditions required.</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>Outline the formation of polyethene from ethene by drawing three repeating units of the polymer.</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>Ethyne reacts with chlorine in a similar way to ethene. Formulate equations for the following reactions.</p>
<p><img 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"></p>
<p> </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>Under certain conditions, ethyne can be converted to benzene.</p>
<p>Determine the standard enthalpy change, Δ<em>H</em><sup>Θ</sup><em>, </em>for the reaction stated, using section 11 of the data booklet.</p>
<p style="text-align: center;">3C<sub>2</sub>H<sub>2</sub>(g) → C<sub>6</sub>H<sub>6</sub>(g)</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>Determine the standard enthalpy change, Δ<em>H</em><sup>Θ</sup><em>, </em>for the following similar reaction, using Δ<em>H</em><sub>f</sub> values in section 12 of the data booklet.</p>
<p style="text-align: center;">3C<sub>2</sub>H<sub>2</sub>(g) → C<sub>6</sub>H<sub>6</sub>(l)</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>Explain, giving two reasons, the difference in the values for (c)(i) and (ii). If you did not obtain answers, use −475 kJ for (i) and −600 kJ for (ii).</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>Calculate the standard entropy change, Δ<em>S</em><sup>Θ</sup>, in J K<sup>−1</sup>, for the reaction in (ii) using section 12 of the data booklet.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine, showing your working, the spontaneity of the reaction in (ii) at 25 °C.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.v.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>One possible Lewis structure for benzene is shown.</p>
<p><img style="margin-right:auto;margin-left:auto;display: block;" src="images/Schermafbeelding_2018-08-07_om_14.31.21.png" alt="M18/4/CHEMI/HP2/ENG/TZ1/03.d"></p>
<p>State one piece of physical evidence that this structure is <strong>incorrect</strong>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>Vanadium has a number of different oxidation states.</p>
</div>
<div class="specification">
<p>Electrode potentials for the reactions of vanadium and other species are shown below.</p>
<p style="text-align: center;"><img 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"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the oxidation state of vanadium in each of the following species.</p>
<p><img src="images/Schermafbeelding_2017-09-20_om_09.58.14.png" alt="M17/4/CHEMI/HP2/ENG/TZ1/03.a"></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>Identify, from the table, a non-vanadium species that can reduce VO<sup>2+</sup>(aq) to V<sup>3+</sup>(aq) but no further.</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>Identify, from the table, a non-vanadium species that could convert \({\text{VO}}_2^ + {\text{(aq)}}\) to V<sup>2+</sup>(aq).</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>Formulate an equation for the reaction between VO<sup>2+</sup>(aq) and V<sup>2+</sup>(aq) in acidic solution to form V<sup>3+</sup>(aq).</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>Comment on the spontaneity of this reaction by calculating a value for \(\Delta {G^\theta }\) using the data given in (b) and in section 1 of the data booklet.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>The reaction between ethene and steam is used in the industrial production of ethanol.</p>
<p>\[{{\text{C}}_{\text{2}}}{{\text{H}}_{\text{4}}}{\text{(g)}} + {{\text{H}}_{\text{2}}}{\text{O(g)}} \to {{\text{C}}_{\text{2}}}{{\text{H}}_{\text{5}}}{\text{OH(g)}}\]</p>
<p>The enthalpy change of the reaction can be calculated either by using average bond enthalpies or by using standard enthalpies of formation.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the enthalpy change of the reaction, in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), using the average bond enthalpies in Table 10 of the Data Booklet.</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>(i) Define the term <em>standard enthalpy change of formation</em>.</p>
<p> </p>
<p> </p>
<p> </p>
<p> </p>
<p>(ii) Determine the enthalpy change of the reaction, in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), between ethene and steam using the enthalpy change of formation values given below.</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2016-08-21_om_12.30.39.png" alt="N14/4/CHEMI/HP2/ENG/TZ0/02.b.ii"></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>Comment on which of the values obtained in (a) and (b)(ii) is more accurate, giving a reason.</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>Predict the sign of the entropy change of the reaction, \(\Delta S\), giving a reason.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>Tin(II) chloride is a white solid that is commonly used as a reducing agent.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>(i) State why you would expect tin(II) chloride to have a similar lattice enthalpy to strontium chloride, using section 9 of the data booklet.</p>
<p>(ii) Calculate the molar enthalpy change when strontium chloride is dissolved in water, using sections 18 and 20 of the data booklet.</p>
<p>(iii) Tin(II) chloride reacts with water to precipitate the insoluble basic chloride, Sn(OH)Cl.</p>
<p><img 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" alt></p>
<p>Suggest why tin(II) chloride is usually dissolved in dilute hydrochloric acid.</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>Tin can also exist in the +4 oxidation state.</p>
<p><img 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" alt></p>
<p>Vanadium can be reduced from an oxidation state of +4 to +3 according to the equation:</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>(i) Calculate the cell potential, <em>E</em><sup>Θ</sup>, and the standard free energy, Δ<em>G</em><sup>Θ</sup>, change for the reaction between the VO<sup>2+</sup> and Sn<sup>2+</sup> ions, using sections 1 and 2 of the data booklet.</p>
<p><em>E</em><sup>Θ</sup>:</p>
<p>Δ<em>G</em><sup>Θ</sup>:</p>
<p>(ii) Deduce, giving your reason, whether a reaction between Sn<sup>2+</sup>(aq) and VO<sup>2+</sup>(aq) would be spontaneous.</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>Outline, giving the <strong>full</strong> electron configuration of the vanadium atom, what is meant by the term transition metal.</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>In an aqueous solution of vanadium(III) chloride, the vanadium exists as [V (H<sub>2</sub>O)<sub>6</sub>]<sup>3+</sup>, [VCl (H<sub>2</sub>O)<sub>5</sub>]<sup>2+</sup> or [VCl<sub>2</sub>(H<sub>2</sub>O)<sub>4</sub>]<sup>+</sup> depending on the concentration of chloride ions in the solution.</p>
<p>(i) Describe how Cl<sup>−</sup> and H<sub>2</sub>O bond to the vanadium ion.</p>
<p>(ii) Outline what would happen to the wavelength at which the vanadium complex ions would absorb light as the water molecules are gradually replaced by chloride ions, using section 15 of the data booklet.</p>
<div class="marks">[3]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Eight successive ionisation energies of vanadium are shown in the graph below:</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>(i) State the sub-levels from which each of the first four electrons are lost.</p>
<p>First: Second: Third: Fourth: </p>
<p>(ii) Outline why there is an increase in ionization energy from electron 3 to electron 5.</p>
<p>(iii) Explain why there is a large increase in the ionization energy between electrons 5 and 6.</p>
<p>(iv) Vanadium is comprised almost entirely of <sup>51</sup>V. State the number of neutrons an atom of <sup>51</sup>V has in its nucleus.</p>
<div class="marks">[6]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Ethanol has many industrial uses.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">State an equation for the formation of ethanol from ethene and the necessary reaction conditions.</p>
<p class="p1">Equation:</p>
<p class="p1"> </p>
<p class="p1">Conditions:</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">Define the term <em>average bond enthalpy</em>.</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">Ethanol can be used as a fuel. Determine the enthalpy of combustion of ethanol at 298 K, in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - {\text{1}}}}\), using the values in table 10 of the data booklet, assuming all reactants and products are gaseous.</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">Students can also measure the enthalpy of combustion of ethanol in the laboratory using calorimetry. Suggest the major source of systematic error in these procedures.</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">State the equation for the acid-catalysed reaction of ethanol with propanoic acid and state the name of the organic product.</p>
<p class="p1">Equation:</p>
<p class="p1"> </p>
<p class="p1"> </p>
<p class="p1">Name of the organic product:</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">A polyester can be formed when ethane-1,2-diol reacts with benzene-1,4-dicarboxylic acid.</p>
<p class="p1">Deduce the structure of the repeating unit and state the other product formed.</p>
<p class="p1">Repeating unit:</p>
<p class="p1"> </p>
<p class="p1"> </p>
<p class="p1"> </p>
<p class="p1">Other product:</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">State the type of polymerization that occurs.</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"><span class="s1">The standard enthalpy change of combustion, \(\Delta H_{\text{c}}^\Theta \), of propanoic acid is \( - 1527{\text{ kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\)</span>. Determine the standard enthalpy change of formation of propanoic acid, in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\), using this information and data from table 12 of the data booklet.</p>
<div class="marks">[4]</div>
<div class="question_part_label">f.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Deduce, giving a reason, the sign of the standard entropy change of the system for the formation of propanoic acid from its elements.</p>
<div class="marks">[2]</div>
<div class="question_part_label">f.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Identify <strong>three</strong> allotropes of carbon and describe their structures.</p>
<div class="marks">[4]</div>
<div class="question_part_label">g.</div>
</div>
<br><hr><br><div class="specification">
<p>Ethane-1,2-diol, HOCH<sub>2</sub>CH<sub>2</sub>OH, has a wide variety of uses including the removal of ice from aircraft and heat transfer in a solar cell.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>(i) Calculate Δ<em>H</em><sup>θ</sup>, in kJ, for this similar reaction below using \(\Delta H_{\rm{f}}^\theta \) data from section 12 of the data booklet. \(\Delta H_{\rm{f}}^\theta \) of HOCH<sub>2</sub>CH<sub>2</sub>OH(l) is –454.8kJmol<sup>-1</sup>.</p>
<p style="text-align: center;">2CO (g) + 3H<sub>2</sub> (g) \( \rightleftharpoons \) HOCH<sub>2</sub>CH<sub>2</sub>OH (l)</p>
<p>(ii) Deduce why the answers to (a)(iii) and (b)(i) differ.</p>
<p>(iii) Δ<em>S</em><sup>θ</sup> for the reaction in (b)(i) is –620.1JK<sup>-1</sup>. Comment on the decrease in entropy.</p>
<p>(iv) Calculate the value of ΔG<sup>θ</sup>, in kJ, for this reaction at 298 K using your answer to (b)(i). (If you did not obtain an answer to (b)(i), use –244.0 kJ, but this is not the correct value.)</p>
<p>(v) Comment on the statement that the reaction becomes less spontaneous as temperature is increased.</p>
<div class="marks">[6]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Predict the <sup>1</sup>HNMR data for ethanedioic acid and ethane-1,2-diol by completing the table.</p>
<p><img 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" alt></p>
<div class="marks">[2]</div>
<div class="question_part_label">f.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Magnesium is the eighth most abundant element in the earth’s crust. The successive ionization energies of the element are shown below.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-25_om_14.06.48.png" alt="N10/4/CHEMI/HP2/ENG/TZ0/04"></p>
</div>
<div class="specification">
<p class="p1">Magnesium can be produced from the electrolysis of molten magnesium chloride, MgCl<sub><span class="s1">2</span></sub>.</p>
</div>
<div class="specification">
<p class="p1">The lattice enthalpy of magnesium chloride can be calculated from the Born-Haber cycle shown below.</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-09-25_om_14.10.58.png" alt="N10/4/CHEMI/HP2/ENG/TZ0/04.c"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">(i) <span class="Apple-converted-space"> </span>Define the term <em>first ionization energy </em>and state the equation for the first ionization of magnesium.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>Explain the general increase in successive ionization energies of the element.</p>
<p class="p1">(iii) <span class="Apple-converted-space"> </span>Explain the large increase between the tenth and eleventh ionization energies.</p>
<div class="marks">[8]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">(i) <span class="Apple-converted-space"> </span>Explain how molten magnesium chloride conducts an electric current.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>Identify the electrode where oxidation occurs during electrolysis of molten magnesium chloride and state an equation for the half-reaction.</p>
<p class="p1">(iii) <span class="Apple-converted-space"> </span>Explain why magnesium is not formed during the electrolysis of aqueous magnesium chloride solution.</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 class="p1">(i) <span class="Apple-converted-space"> </span>Identify the enthalpy changes labelled by <strong>I </strong>and <strong>V </strong>in the cycle.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>Use the ionization energies given in the cycle above and further data from the Data Booklet to calculate a value for the lattice enthalpy of magnesium chloride.</p>
<p class="p1">(iii) <span class="Apple-converted-space"> </span>The theoretically calculated value for the lattice enthalpy of magnesium chloride is +2326 kJ. Explain the difference between the theoretically calculated value and the experimental value.</p>
<p class="p1">(iv) <span class="Apple-converted-space"> </span>The experimental lattice enthalpy of magnesium oxide is given in Table 13 of the Data Booklet. Explain why magnesium oxide has a higher lattice enthalpy than magnesium chloride.</p>
<div class="marks">[10]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">(i) <span class="Apple-converted-space"> </span>State whether aqueous solutions of magnesium oxide and magnesium chloride are acidic, alkaline or neutral.</p>
<p class="p1">(ii) <span class="Apple-converted-space"> </span>State an equation for the reaction between magnesium oxide and water.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Carbon monoxide reacts with hydrogen to produce methanol.</p>
<p class="p1">\[{\text{CO(g)}} + {\text{2}}{{\text{H}}_{\text{2}}}{\text{(g)}} \to {\text{C}}{{\text{H}}_{\text{3}}}{\text{OH(l)}}\]</p>
<p class="p1" style="text-align: center;"><img src="images/Schermafbeelding_2016-08-07_om_06.11.14.png" alt="M15/4/CHEMI/HP2/ENG/TZ2/03"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Calculate the standard enthalpy change, \(\Delta {H^\Theta }\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - {\text{1}}}}\), for the reaction.</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 standard free energy change, \(\Delta {G^\Theta }\), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - {\text{1}}}}\), for the reaction</p>
<p class="p1">\({\text{(}}\Delta G_{\text{f}}^\Theta {\text{(}}{{\text{H}}_{\text{2}}}{\text{)}} = {\text{0 kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}{\text{)}}\).</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">Using the values obtained in parts (a) and (b), calculate the standard entropy change, \(\Delta {S^\Theta }\), in \({\text{J mo}}{{\text{l}}^{ - 1}}{{\text{K}}^{ - 1}}\), for the reaction at 298 K.</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">Determine the absolute entropy,<span class="Apple-converted-space"> </span>\({S^\Theta }\), in \({\text{J}}\,{\text{mo}}{{\text{l}}^{ - 1}}{{\text{K}}^{ - 1}}\), for \({{\text{H}}_{\text{2}}}{\text{(g)}}\) at 298 K.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p class="p1">Bromomethane was used as a pesticide until it was found to be ozone-depleting.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">State the equation for the reaction between methane and bromine to form bromomethane.</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">Explain, using equations, the complete free-radical mechanism for the reaction of methane with bromine, including necessary reaction conditions.</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">Bromomethane reacts with aqueous sodium hydroxide. State the organic product of this reaction.</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">Explain why the rate of the reaction between iodomethane, \({\text{C}}{{\text{H}}_{\text{3}}}{\text{I}}\), and NaOH(aq) is faster than the rate of the reaction between \({\text{C}}{{\text{H}}_{\text{3}}}{\text{Br}}\) and NaOH(aq).</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">Bromine can be produced by the electrolysis of <strong>molten </strong>sodium bromide.</p>
<p class="p1">Deduce the half-equation for the reaction at each electrode.</p>
<p class="p1"> </p>
<p class="p1">Positive electrode (anode):</p>
<p class="p1"> </p>
<p class="p1">Negative electrode (cathode):</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 class="p1">Predict the products formed at the electrodes during the electrolysis of concentrated <strong>aqueous </strong>sodium bromide.</p>
<p class="p1"> </p>
<p class="p1">Positive electrode (anode):</p>
<p class="p1"> </p>
<p class="p1">Negative electrode (cathode):</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 class="p1">Bromine reacts with aqueous sodium iodide.</p>
<p class="p1">\[{\text{B}}{{\text{r}}_{\text{2}}}{\text{(aq)}} + {\text{2NaI(aq)}} \to {{\text{I}}_{\text{2}}}{\text{(aq)}} + {\text{2NaBr(aq)}}\]</p>
<p class="p1">Identify the oxidizing agent in this reaction.</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 class="p1">Define the term <em>standard electrode potential, </em>\({E^\Theta }\).</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Draw a labelled diagram for the voltaic cell in which the following reaction occurs.</p>
<p class="p1">\[{\text{Mg(s)}} + {\text{C}}{{\text{u}}^{2 + }}{\text{(aq)}} \to {\text{M}}{{\text{g}}^{2 + }}{\text{(aq)}} + {\text{Cu(s)}}\]</p>
<p class="p2">Include in your answer the direction of electron flow and the polarity of the electrodes.</p>
<div class="marks">[4]</div>
<div class="question_part_label">f.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">A student measures a voltage of 2.65 V in the voltaic cell formed between magnesium and copper half-cells using a digital voltmeter.</p>
<p class="p1">State the random uncertainty of this value, in V, and the number of significant figures in the answer.</p>
<p class="p2"> </p>
<p class="p1">Random uncertainty:</p>
<p class="p2"> </p>
<p class="p1">Significant figures:</p>
<div class="marks">[2]</div>
<div class="question_part_label">f.iii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Outline how the student can reduce the random error in her results.</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.iv.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p class="p1">Determine the standard enthalpy change of formation, \(\Delta H_{\text{f}}^\Theta \)<span class="s1">, of NaCl(s), in \({\text{kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\)</span>, using a Born-Haber cycle and tables 7, 10 and 13 of the data booklet. The standard enthalpy change of atomization (standard enthalpy change of sublimation), \(\Delta H_{{\text{at}}}^\Theta \), of Na(s) is \( + {\text{108 kJ}}\,{\text{mo}}{{\text{l}}^{ - 1}}\)<span class="s1">.</span></p>
<div class="marks">[4]</div>
<div class="question_part_label">g.</div>
</div>
<br><hr><br><div class="specification">
<p>Phosgene, COCl<sub>2</sub>, is usually produced by the reaction between carbon monoxide and chlorine according to the equation:</p>
<p><img 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" alt></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>(i) Deduce the equilibrium constant expression, <em>K</em><sub>c</sub>, for this reaction.</p>
<p>(ii) At exactly 600°C the value of the equilibrium constant is 0.200. Calculate the standard Gibbs free energy change, <img src="data:image/png;base64,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" alt>, for the reaction, in kJ, using sections 1 and 2 of the data booklet. State your answer to <strong>three</strong> significant figures.</p>
<p>(iii) The standard enthalpy change of formation of phosgene, \(\Delta H_f^\Theta \), is −220.1kJmol<sup>−1</sup>. Determine the standard enthalpy change, \(\Delta H_{}^\Theta \), for the forward reaction of the equilibrium, in kJ, using section 12 of the data booklet.</p>
<p>(iv) Calculate the standard entropy change, \(\Delta S_{}^\Theta \), in JK<sup>−1</sup>, for the forward reaction at 25°C, using your answers to (a) (ii) and (a) (iii). (If you did not obtain an answer to (a) (ii) and/or (a) (iii) use values of +20.0 kJ and −120.0 kJ respectively, although these are not the correct answers.)</p>
<div class="marks">[8]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>One important industrial use of phosgene is the production of polyurethanes. Phosgene is reacted with diamine <strong>X</strong>, derived from phenylamine.</p>
<p><img 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" alt></p>
<p>(i) Classify diamine <strong>X</strong> as a primary, secondary or tertiary amine.</p>
<p>(ii) Phenylamine, C<sub>6</sub>H<sub>5</sub>NH<sub>2</sub>, is produced by the reduction of nitrobenzene, C<sub>6</sub>H<sub>5</sub>NO<sub>2</sub>. Suggest how this conversion can be carried out.</p>
<p>(iii) Nitrobenzene can be obtained by nitrating benzene using a mixture of concentrated nitric and sulfuric acids. Formulate the equation for the equilibrium established when these two acids are mixed.</p>
<p>(iv) Deduce the mechanism for the nitration of benzene, using curly arrows to indicate the movement of electron pairs.</p>
<div class="marks">[8]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The other monomer used in the production of polyurethane is compound <strong>Z</strong> shown below.</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>(i) State the name, applying IUPAC rules, of compound <strong>Z</strong> and the class of compounds to which it belongs.</p>
<p>Name:</p>
<p>Class:</p>
<p>(ii) Deduce the number of signals you would expect to find in the <sup>1</sup>H NMR spectrum of compound <strong>Z</strong>, giving your reasons.</p>
<p>The mass spectrum and infrared (IR) spectrum of compound <strong>Z</strong> are shown below:</p>
<p>Mass spectrum</p>
<p><img 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" alt></p>
<p>IR spectrum</p>
<p><img 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AiAAAiAAAiAAAiAAAiAAAiAgE8I/MondsJMEAABEAABEAABEAABEAABEAABEAABEAABECghAIcYLgQQAAEQAAEQAAEQAAEQAAEQAAEQAAEQAAFfEYBDzFenG8aCAAiAAAiAAAiAAAiAAAiAAAiAAAiAAAjAIYZrAARAAARAAARAAARAAARAAARAAARAAARAwFcE4BDz1emGsSAAAiAAAiAAAiAAAiAAAiAAAiAAAiAAAnCI4RoAARAAARAAARAAARAAARAAARAAARAAARDwFQE4xHx1umEsCIAACIAACIAACIAACIAACIAACIAACIAAHGK4BkAABEAABEAABEAABEAABEAABEAABEAABHxFAA4xX51uGAsCIAACIAACIAACIAACIAACIAACIAACIACHGK4BEAABEAABEAABEAABEAABEAABEAABEAABXxGAQ8xXpxvGggAIgAAIgAAIgAAIgAAIgAAIgAAIgAAIwCGGawAEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMBXBOAQ89XphrEgAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAJwiOEaAAEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQ8BUBOMR8dbphLAiAAAiAAAiAAAiAAAiAAAiAAAiAAAiAABxiuAZAAARAAARAAARAAARAAARAAARAAARAAAR8RQAOMV+dbhgLAiAAAiAAAiAAAiAAAiAAAiAAAiAAAiAAhxiuARAAARAAARAAARAAARAAARAAARAAARAAAV8RgEPMV6cbxoIACIAACIAACIAACIAACIAACIAACIAACMAhhmsABEAABEAABEAABEAABEAABEAABEAABEDAVwTgEPPV6YaxIAACIAACIAACIAACIAACIAACIAACIAACcIjFeg38spOm92pGDeu3pdE5x6M8+l+0Zf40em5QZuC4BmX/2gym56a9Q6v2/BRdP8e30IJp42hIm7SyPuqn0eWDxtH0N1fR3l+i6watQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMDPBCqdCix+BhCb7f+izROG0ICpW+gk1aAb3vyIxmdVi9zF8XX03MCh9NpXRRHa1aasR16i54e0pNC9/ULHN79Et/R7hf5+MkI3NTrTQ1PH0eD030ZohF0gAAIgAAIgAAIgAAIgAAIgAAIgAAIg4G8CiBCL+vz/RHvnP0l3lTjDoj3oe1o19qEKnGHc10HKGTOKxud8H7rj4zk0fvhrkZ1hfOSRFTRu2ERadRyhYqFBYisIgAAIgAAIgAAIgAAIgAAIgAAIgAAIEMEhFtVVwJFh/emaUR/Skajac6NAVFfOJHr03X2lRyTRJX3G0ftbv6Fv9+4J/NtBK9+8i7JqVC7dv48WzVpL/ypdK/tgp9oYeu9IaWhY5WZ0w3MLaHNJH4F+vs2h6Xd2CsSrlS5HPqLZK7/T1vAJAiAAAiAAAiAAAiAAAiAAAiAAAiAAAiCgIwCHmA6IfvWXPSvoxUE9qE9MkWHcy3eUM+ujUgdaEqU/8i7Nf64fpVc7o3SIs6l+1kiatnwK3VDqFDu58jV6Y8uPwSr8ay3NXljqVKvchh5aPo/G90kvS608owF1vO81WvrmjaVOseOUM+kvtAVBYsEcsQYCIAACIAACIAACIAACIAACIAACIAACpQTgEAt3KXAB+wmDqV3H22nKyoMlrSo3u5GGdDov3BHB20/uog2flRbdrz2AHrmtCWmusKCG1bLo/vs70Ok4sf30+abTY2ltTv7tC/q8JDisMtUefB/d2vBsbZf4PIOqZd1JozqVViA7uJk2749UbEwcChEEQAAEQAAEQAAEQAAEQAAEQAAEQAAEfEYADrFwJ/zYJpo5dWVphFeg6P2dr9PyhQ/Qpb8N6dYq18svX2+gdaWTR559WWu6OOxhZ9BvO1xDmSUesZ9o5/qvRdrkj/T1xq10upvfUtuMhqGdaiWjn0/tszNKHWv59MWXYeqRldMUG0AABEAABEAABEAABEAABEAABEAABEDAXwTgEIt4vitTjU530fRVK2jafZ2pflinlr6TQP2w3d8GkiZ5OZtSU2uVOqr07UrXq9Wj1PNPx4id3JVP+1W643Hak/eP0kZ1qFGDc8J0wJsDUWIXNKTzS1r8QHnfFASqmGEBARAAARAAARAAARAAARAAARAAARAAARDQEzhTvwHrpQSqZ9ITq/5A6Q1CpShWROl/VHT0OJ1OWqxGTRr+PvIBZyTRuecGvG0HA0f88ygd/1+geYnzrZiOfq+FmTWghrW1Avyhuzuj2rlUPbDrYGDkf/7rBKluQjfHVhAAARAAARAAARAAARAAARAAARAAARDwJQFEiIU77dWaxOkM4w5P0rGjhaU9V6Vzq58VbpTS7b+nhk1K63/9FJg5kh1jvPxSREePlsZ5/e5cqlbR2ardiJqU+u9+2vkNHTrdC/4HARAAARAAARAAARAAARAAARAAARAAARAQBBAhJmAYJ/5MxwMRWqeXZDq3WuTIrrDj/u8EHf1nqXPs3ED0V9Qpm2F7pIb1G4TfiT0gAAIgAAIgAAIgAAIgAAIgAAIgAAIg4HAC3+7dk7CGFcUcJTwAOgABEAABEAABEAABEAABEAABEAABEAABEAABJxGAQ8xJZwO6gAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAImE4ADjFTEJ9F1X5btbTnQjp6vDTtMdaxfhWoP/a70nTLo0fpGKaNjJUg2oMACIAACIAACIAACIAACIAACIAACIBAOQKoIVYOiREbKlP1c5NLOwrUATv2c0D+TYSO/0Hf7jx+ev/ZYjbJsLNPhunq4De0U5uUskkjqhWiWTR5tvo6Y9EcE2IobAIBEAABEAABEAABEAABEAABEAABEACBhAno/RQJdxjoABFiRlAs18evKOncanQ6tusn+texH8u1CNoQdjbJKnTueaXTRv5yjI6diBwi9svxQBRZSceV6XeBCDWc3CDKWAEBEAABEAABEAABEAABEAABEAABEACBEgLwmZhyIZxB1S5oSOeX9P0D5X1TQBFdWcf3Uf53p9MqKzdOpbpqNslq1CDt96c1PLmPvtn/nwja/kLHd39L35W0OIfSGqWQ6ibCUdgFAiAAAiAAAiAAAiAAAiAAAiAAAiAAAn4jAIeYSWf8jItbU9uS4K6TdHDJX+mrsB6xX+hfq5fT2hJ/WGU6P60eVVM6/YYuzmhOp2PE9tDST3ZEcKx9R7nLNtJpt9rvKfWCsl5UdxBAAARAAARAAARAAARAAARAAARAAARAAASQVWfaNVC5MbW+vNQpdXAWjXlzZ2hn1vEcev751aWOrAbU9aoLgyK7Kv+/S+myktzLgGNt+gv01relRcKCFA9Eh+W8QhNXltYhq51FnZtFqlkWdDBWQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMBXBBAhZtrpPp+yBnShGiX9F9GWMX2o9wPTaNUezaH1E+3NmURDrhlO7x0pTZdscT311juyfptJ/XvWO63lyfU07pq+NHraKtqrRZz9sodWvTCUut42h46UtEqi9Juvo2bIlzTtzKJjEAABEAABEAABEAABEAABEAABEAABdxPALJOmnb9AHbH2A+nWFh/SuC+LAqMU0d/fHUuDA/9CL/Wox509qGE5R9Z51G7oAEpfOJa2sN/s5Ff03pjbAv9C90I1rqXhN6QGRZmFaYnNIAACIAACIAACIAACIAACIAACIAACIOBLAogQM/O0n9GEbp04nvo1S6pglNrUeeIbNCbrvJDtzmj4B3rhz7fQJaenrQzZpmRjwBn2/JzHqWO1cl618MdgDwiAAAiAAAiAAAiAAAiAAAiAAAiAAAj4jAAixEw+4Wc0yKYxiy+l6+cvoBXLZtJrKw+WjVi5Gd0w6ga6+urrqWOD06Xzy3ZK6Wyq3/kJWrSxOy14bzl99MZblFOaZsmtKjfrQyN7XENX39yR6sMXJsFBBgEQAAEQAAEQAAEQAAEQAAEQAAEQAIFyBCqdCizltmKDrwk0rN8gyP5v9+4JWscKCIAACIAACIAACIAACIAACIAACIAACFhFwAw/BVImrTp7GAcEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMARBOAQc8RpgBIgAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAJWEYBDzCrSGAcEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMARBOAQc8RpgBIgAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAJWEYBDzCrSGAcEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMARBOAQc8RpgBIgAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAJWEYBDzCrSGAcEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMARBOAQc8RpgBIgAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAJWEYBDzCrSGAcEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMARBOAQc8RpgBIgAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAJWEYBDzCrSGAcEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMARBOAQc8RpgBIgAAIgAAIgAAIgAAIgAAIgAAIgAAIgAAJWEYBDzCrSGAcEQAAEQAAEQAAEQAAEQAAEQAAEQAAEQMARBM50hBZQAgRAAARAAARAwLMEtmzZQps3baId27dTYeEJZWedOnWoyYUXUvsO7alGjRpquxcFZsALc+DlxIki2r5tW4kc7X/Mq1btWpSUVJXSGqdRSkqK57lFywbtQAAEQAAEQAAEQCBWAnCIxUoM7UEABEAABEAABCokcOTIEZo9a3bg3zt07OixCtu3aNmCbr1tEGV3za6wrZMbFBcXU35+fonja/269bRv317a/e1uU1XumJVFTS+6iDIyMii9RTpVqVLF1PHQOQiAAAiAAAiAAAh4gUClU4HFC4bABuMINKzfIKizb/fuCVrHCgiAAAiAAAiEI8AOoblz5tC4MWPDNYm4/YKGF9DIe0e5yjH2Tf43tHr1Kvp4+XL6cvOXEe2zYic7F9tedjl1796dGqU2smJIjAECIAACIAACIAACphIww08Bh5ipp8ydnZtxobmTBLQGARAAARCIhQA7hh4a/WBIpxBHMbVp26Yk3a9mzZq0a9dOOnTwEH366dqQEVQDb76ZnnjqyViGt7QtR8Dlrs6l6dNeD6l/KGXY2VevXn1KTq5KFzZtGtSkZatWQetyJW9XHhUVnU411dJOt27dElXkHY/ZJbsr9R/QH+mVEipkEAABEAABEAABVxEww08Bh5irLgFrlDXjQrNGc4wCAiAAAiBgF4G1a9bSyHvuDnLSVD+3Ot0xbBhd261bRGcM19davOgDmjljRpD67ER76U8vOyoFMJyuQYoHVjQHYOPGTUpqfZkRqSXTM9lRlpubG8Q/lE69evd2VfSd3gasgwAIgICdBPjFT42UGo76XbKTB8YGASsJmOGngEPMyjPokrHMuNBcYjrUBAEQAAEQiIPAsqXLaMTw4UFH9ujZg5565pmYHhrY2TT22WeDIsw4wmnqq6/ZnvrHD0Hjx42jVTk5QXZqK1okVsesjpSenq5ttvyT9Vy8eDGt+/yzII5SEdbVbWmpUn/IIAACIGAlAa0UwKtTp6qXDvzSY/iIO239vreSAcYCAScQMMNPAYeYE86sw3Qw40JzmIlQBwRAAAQ8S0C7cY/FQJ61sG+/vrEcotqGcoaNHT8+7v5Y/1sD6ZL6WlyJ9KmUjUNgfSY+/0K56DXuiiPg+g+4ybG1urSJDT5atjRkWic7xh5/4knKbJcZBxkcAgIgAALeJ8AvGfr17aMcYXqL7fpt0uuBdRDwAwEz/BRwiPnhyonRRjMutBhVQHMQAAEQAIE4CIRzJkXTVTw39aEeFCZPmWJISt5TAUdNqBTKZ8eOiZh+GY2t0bYJlQbKx2oRVu3at4spAi7acc1ox7bMePvtkBFuHOkw+qGHbI/CM8Nu9AkCIAAC8RLg781bBg6s8PCHHnmYBg8ZUmE7NAABEEiMgBl+CjjEEjsnnjzajAvNk6BgFAiAAAg4iEAizjDNjI9XrIjaKcLj9bzuuqDII6OcYZo+HH32+GOPlnszzw8f/W680VRnVCiHHEeEPf3Ms4Y4/DQbrf7ktNQpk18J6RjDQ53VZwPjgQAIOJVAqBc+w0eMoNuH3k5rcteU+216e+ZMRNs69WRCL88QMMNPAYeYZy4P4wwx40IzTjv0BAIgAAIgoCcQyhnWomWLwGyG1fRNy63L2QrZ4TN33rtROcVenPhiwLEyWfVntDNM65jT/rg+mT6FUovSyu6arTU15DMUS+5YexCqUqWKIePY3Umoem2sE18348ZPiOoasNsGjA8CIAACZhCI5oWP3mHGv58fLltmWQSzGXajTxBwOgEz/BRwiDn9rNugnxkXmg1mYEgQAAEQ8AUBvikfdsfQoEitgYEaXE889WRU9utrgEUTBTV92jQaN2as6j+W8dRBMQo8pixorB1upGMslDOM+3/uhRc8Wzh53tx59PxzE4Ki8KK5Bpg/OysLCgqo4HABHT58iA4dPEQHDhwoOTX79u0Nuia188V9N2+eHnDWVqULmzallq1alczCWaNGDa0JPkEABEDAVgL6Fz7hSgrwi4Xre/ZSunL6+fQ331DrEEAABIwlYIafAg4xY8+RJ3oz40LzBBgYAQIgAAIOI6B/Q83qxeOc0jvFuB+eJXLYH4cHRQqFSrdjh9HCDz4wNX2R9eGFHTDPT5hAixYuOr1B/M+OlkQK3IdyhvHDzUt/etkS24Qplots+z133V0ujZKj4u4ddS/x/vz8fNq8aZNyeoWbbTNe5TVHWdOLLqJatWpRWuM0Sk1N9Tz7eHnhOBAAAXMI8O/M5W3aqs75t3DipElqXS/oXxC9v3CBZ1+g6G3HOghYTcAMPwUcYlafRReMZ8aF5gKzoSIIgAAIuIqAUc4wzehQTjHexw6vevXqU6iIH3ZiRJtiqY1jxGcox5zsl3Xukt2VMjIyKL1FelROlcG3DQpyCMXjWJQ6uFHmaLGHR48OUp3P8bGjx4K2WbkCR5mVtDEWCICArB/J3z/RpEF27tRJRcTy78+KlSsBEgRAwAQCZvgp4BAz4US5vUszLjS3M4H+IAACIOAkAkY7wzTb2NH0wH33qRt7bXuoT46esnLGx1A6sL7vBAoZh4oYk+01p16dOnWoVu1aateO7dupsPBEkCOMd/rRGaZBCXVtafvCffK1wEubtm1KPmvWrEUpNVNK5FD/5e3Ko0OHDtH2bdtI1rAL1TbSNh5XS71MSqpaElWWVCUpKKox0vHYBwIgAAKSgD46LNqJRvi3SKZOmlVTU+oKGQT8SMAMPwUcYn68kiqwOdELjW+m8/LySuqJVDBUVLs7dOiIm9uoSKERCICAFwjwd2hRcVGJKew4KCo6Uc4sfS0tox04HC026cWJIR1j7Fwaee8oR820yA8xHy5ZQvPmzg2pczmAETZwUfn35s+P0ML7u0Klj7LV7IAyI6WRzx/XIuOUTHZS7t+/v9wkCvFQlxNLsLNOc5qlp6fH0x2OAQEQ8DgBGR3Gv3WxlAOQUcb4HfH4hQLzbCOQqJ8ilOJwiIWi4vNt8VxofPM8d84cQx5GQuF34gNYKD2xDQRAAASiIRCqJlO8kTLRvsGORi99G81RoW1PSUlx/Axa7FBcvXoVrV+3vlzkl2ZHuE/+rfnLrFmOtzGc/kZu137XOdorLS3NlhdTfC7ZUbZr184SR1moaL54beYH1raXXV6SVpvZLjPebnAcCICARwjwd97/u/gSZU24QvqqgU7QR4mhlpgOEFZBwAAC8fgpKhoWDrGKCPlwf6wX2to1a2nkPXdbUmOEH1a8PNuXDy83mAwCviHAN8urclbRus8/MyT6hcEhLaPiy0c6VcK15pkOUcA9HB3nbdcctVoEZbjU12g15zpB3bp1p6xAHSA4x6KlhnYg4C0Csjg+fyesXrMmqvqTkoKsJVZRMX55HGQQAIHoCMTqp4imVzjEoqHkszb6C43fcIRbFi/6gGbOmFFuNzuuuAhzokuoIs7cpzbzVaL943gQAAEQMJMAO8H4e3LJksUxvzQI9z3KdbAOHDhAvXr3dlTaopkc0TcIxEIgVNpxtKmY/CDMs5X2H9AfkYKxQEdbEHA5AenMivc5Qz85zWfr1+F7xOXXBdQ3nwBHZ67JXRMoEVJE7Tu0j/g3o/dTfLt3T8IKwiGWMELvdaC/0GKxkOvYDLjpJkNTK/iBcsrkV8qlvnC6w1sBZ1yVKlViURFtQQAEQMB0ApFqcMnB+Xvs4kCKBhd65yglXlDfSBKCDALGE+D7Cq5X9vHy5RGjNfmeZuiwOyLenBuvHXoEARCwmgB/J8ii+PE6svjBvkO7duoFWKxpl1bbjfFAwG4C/Ddza+C39svNX5aowi+lIs1ervdTwCFm9xn06Pj6Cy0aM/ninfbGG6Y+yIVKzYRTLJqzgzYgAAJWEajIEcbfWVdfc02J8wuOL6vOCsYBgfAEtDfTCwITKazKyQnZkB1jo+6/Dy/gQtLBRhBwPwFZTJ9/pxOZWMXIvtxPFhaAQGQC8u9Fa8kZEuEmtND7KeAQ06jh01AC+gutos4jXbQVHRvrfr0XmY/XHjDD9dW4cRPUBAkHB9tBAAQMIcApWuPHjQv5QM3fUdff0KfCMHBDFEEnIAACcRPg2mSzZ80O/HtHRXhonfGLv/sfeJD69uurbcInCICARwi0atFC/c0nGtXF9wNXd+6syHy8YoWhmTOqYwgg4HIC/FwvJ7KQ5oSbMErvp4BDTFKDbBgBMy40w5Qr7SiUNznSGFzY8qlnnsHb3UiQsA8EQCAuAvPmzqOHR48ud2zHrKxAvcM7TY2cLTcoNoAACCRMgG/SeebsV6dOVQ/JWqf8d/3s2DFIo9SA4BMEXE6AM1BuGThQWRFvuqTqICAYUY9M9me0zE67qX+eQjxzb3JyVbopYD+i1o2mjP4qIiDvn/mlU/Pm6erFMgfcrFi5slwXZvgpflVuFGzwHQG+sOQ/NwB44qkniW9Ko10WLVxEPa+7jvgHAAsIgAAIGEWAnfN6Zxh/N/FkJNPfNDeN3Cgb0A8IgEAwAa5NOnjIkJJZ5vgttVw4rfLa7Gzih2gsIAAC7ieQIx66OaK7Ro0aCRvVJbur6oNnlnbSwpGw/fr2IX424u8z/uT6aS9OfNFJakIXHxB4/713lZU8mQ2/bNKW3d/utux3Fg4xjTo+XUfgpT+9TBz5xQ+f4f6xd1lb+A+LQ5i5xg8WEAABEEiUgD5Sld9ucaoFHGGJksXxIOAMAppjjCNG5Eu4Y0ePlUSU8NttLCAAAu4mwLNAawuXNzBi6d69u+qGi4WzE8opy6MPP1Iu8pV1mzJ5MuE7zSlnyft6cCS2Vkifre2Y1bHEGS1/a6Wz2kwimGXSTLou6VsfeqhX24jcXH2fVq3zH9vrr71e8iUvx5w8ZQpld82WmyCDAAiAQNQE9M4wfqs8bvwE1AmJmiAagoD7CEyfNo3GjRkbpDgX3OeodSwgAALuI6Cv92VEuqRGQaZNJlqXTOsz0U+9vfz9xQ5BdvJrC2qeaSTwaSYB/cyumr+BA1dGDB9eMjS/aN705enZJzVd9H4L7ThtfzyfZ8ZzEI4BAbcQ4Le79466l5o0aUKPP/ao+sLnP7QF88OnXNapU4cyWreG08wtJxp6goCFBPgN6swZM9SI7Ax7K7DO3zdYQAAEvEuA0yhbtmpFQwYNUvcT2ncBnGLePe+wzLsEVq9epYwzKl1S6/CKKzKJs1N42fDFekdMyCHt5Swa/t4acNNNJSmUmlOMJwjiSHcsIGAmgc2bNqnuZVQY/x1qC1+T7Dgzu74dUiY14j7+ZM+q/OdFFBwNNnfeu8SeZm3hvPlw//gGl51mPOsMUiw1YvgEARDgt6uyZhicYbgmQMBfBPjGnO8nZEkGvmfgqFEsIAAC7iLw8fLlSuG2l12uZCOErE6dVDdcp8sJy/p165UaWp2zRqmNSmbQ1XbwsxGefTQa+DSLwIkTRarrphddpGSu4SedYtJxphoZLMAhZjBQdOdcAvyFP+2N2N54sGeaHWODbxtEnH6JBQRAwN8E+M2ptrCDndOvERmmEcEnCPiDAN9PLPzgg6CbdnaK4V7BH+cfVnqDQKgaRkZalt4iPag7J0zEwc4ubeGaTdrSt1/foDqJk16cqO3CJwiYQmD7tm2q36pVk5TMgnROSyduUCMDV5AyaSBMdOV8Avxml/P4i4pORFR2x/btJbOuaI34B+TWQJ490qI0IvgEAf8R4LBteTP59DPPGjIblf9IwmIQcD8BdoSzQ5xnnNRSjfj7oUO7diURZOw0wwICIOBcAlu+3BKknNFpWfwdwalg2n3Dxo0bKbNdZtCYVq5whLtc9PYOH3Gn0pVTPTlKDPWWJTHIVhHIyMhQQ2l/P2qDCQIcYiZARZfOJsBvQaJZhv1xOD00+kE1AwbPhAGnWDTk0AYEvElg8aIPlGGcLoUbRYUDAgj4kgCndny47HQBYG22LHaO9evbhya99LKtD7++PCEwGgRiIMAOKm2RNYy0bUZ8tmnbRjmZ1n3+GVGgrrFdS0FBgRpapnxrG9lBJh14HCWG+xyNDj6NJlBYeFx1ybU55aKPrjS7jhhSJiV9yCAgCPDb3ffmzyeegUVbNKeYto5PEAABfxDg1Ao5NfvgIbf7w3BYCQIgEJEAO8X09wrsFLtl4EDU4YlIDjtBwF4CJQ6qUhXYcWXGIh/0+RnCzvIru3btVCbWq1dfyVLgKDFt0aLEtHV8goCRBLSXSKH65OhKWUcsb1deqGaGbYNDzDCU6MirBHgGFr1TjKdexwICIOAfAnPnzFFpUWx1+w7t/WM8LAUBEKiQAN8rcAqlXLgGKYpTSyKQQcAZBPT1w6TjykgN9WmJ+jRNI8eKpa86deqEbK5FiWk738JskxoKfJpIICUlpVzvF198idrGs7SaucAhZiZd9O0ZAnyjK8Opx40ZWzINrGcMhCEgAAJhCfCN86tTp6r97CDnqBAsIAACICAJcHpRKKcYp3tgAQEQcA6B/Pz8IGX0jqugnQmuyOcHGaWVYLcxH871kbWlVu1amljuU0aJcRQPvr/KIcKGBAnor6lQ99QZrVurUXJzc5VshgCHmBlU0acnCbz0p5eJZ5XTlrHPPquJ+AQBEPAwgTW5a4Kiw4YOu8PD1sI0EACBRAiEcooNGTSI9AWtExkDx4IACCRGYPOmTaoD6bBSGw0UZDqmFTPmhVO9sDDyhGLacewclDXGZP1UrQ0+QcAoAvLZWvYpUya5DIGZv6FwiEnykEEgAgHOZ+ZZ5bSF35ogFUKjgU8Q8C4BOf04osO8e55hGQgYRUDvFOOb+WF3DLW1fpBRtqEfEPACAemYkg4rM2xr3LiJ6taKGfPUYBGEpKSqEfYSyTqpM2fMwHdXRFrYGSsBWROsefP0kIdz1Jh0ii1evDhkOyM2wiFmBEX04RsCfJMr3yTJB2XfQIChIOAjAuz05sKy2oLoMI0EPkEABCIR0DvF+HvknrvujnQI9oEACFhEYOvWsjRm6bAyY3j9jHlmRrpE0n/fvr1qd1rjNCWHErpe2zUoK2bph0tDNcM2EIiLQFFRWbRicnJ45+z1N/RR/X+0zLxrEA4xhRkCCERHQObWYwaW6JihFQi4kQDXDnv8sUeV6ogOUygggAAIREGAnWJyUh6ODsGkPFGAQxMQMJEAO6Q4alNb9A4rbbtRn5xhIlMQN2/ebFTXMfUjX+5VdCDr3K1bd9Xs/ffeVTIEEEiUgKxnd2HTpmG7kxNY8fWrrz0W9sAYd8AhFiMwNAcB/QwsC+bPBxQQAAEPEtDPLInoMA+eZJgEAiYT4El5ZNoHT8pjV4SIyaaiexBwBYG8vDylJzuq2Plj9nLFFZlqiJ07dijZLiGpSlKFQ3fvcZ1qw2Vi8L2lcEBIkICsZ1ezZvgJHvRpk+/MnJngyKEPh0MsNBdsBYGIBG6+5Ra1n9/4HjlyRK1DAAEQcD8BzCzp/nMIC0DAKQR45klZOPih0Q86RTXoAQK+I7Bz505lc7NmzZRsptDkwgtV919//XclWyXwPY1cGqU2kqsh5XLF9U2s4RRSAWz0LAFZSy+lZkpEO2+9bZDav2jhIiUbKcAhZiRN9OUbApntMoPCn2fPmu0b22EoCPiBwOuvvR6UUoHoMD+cddgIAuYQ4Lfck156WXXO0RZInVQ4IICApQS2b9umxouUrqUaGSDIml3892/1kp+fH9eQffv1U8fNnvWOkiGAQLwE9EEkqampEbvi0gPyhVLExnHuhEMsTnA4DAS6ZHdVEMws9KcGgQACIGAJAU4LmDJ5shrroUceJn6gxQICIAAC8RLgF2k9evZQh786dSqiyxUNCCBgHQEZndKyVStLBuZoK7mYVQtJjmGEfG23bqobrru2ds1atQ4BBOIhUFBQoA5jR1c0Kct3DBumjjFDgEPMDKro0xcEuncvKzbJhf6QW++L0w4jfUBg/Lhxykr+se53441qHQIIgAAIxEvg/gcfVG+6+eHytamvxtsVjgMBEIiDgP5evaLolDiGCHuIrCVYcLjMKRD2AJN2dMzKirpnfQ2nnJUroz4WDUEgFIHNmzapzc2bBzuK1Q6dMHjIkKBanLrdCa/CIZYwQnTgVwKcfy9njVm9epVfUcBuEPAMgXlz55F8e/z0M89G9fbKMwBgCAiAgGkE+OFSvumeOWMGosRMo42OQaA8ATsK6mta1K1bVxNJ1jFTG00UpBMi1mFkDaclSxbHejjag0AQgUMHD6n1phddpOSKhHHjJ6gXShW1jXU/HGKxEkN7EBAEZNrk+nXrxR6IIAACbiPAdQ2ef26CUpvfonLtAiwgAAIgYBQBjjiV9VAQJWYUWfQDAhUTOHy47GHcqoL6mlayXpmsY6btd+pnu/btlGpIm1QoIMRJQE4qUatW+Bkm9d1zIMqHy5bpNxuyDoeYIRjRiV8JZGRkKNNlVInaCAEEQMA1BB59+JGgQvqjH3rINbpDURAAAXcQ4HopiBJzx7mClt4jIF9eSweVFZbKemVbt26xYsiQY8QSlcMd8HeWrH+ItMmQWLExSgJyUgk52UQ0h5tVzxcOsWjoow0IhCGQ3iI499ktRTLDmIPNIOBbAjzjm3RqcyH9aKYl9y0wGA4CIBA3AX2UGGaqjhslDgSBmAhIR1Tjxk1iOjbRxikpKaoLjrQqLi5W62YLMk2tatWkmIfrdGVndQzSJhUKCDES0D8n6yebiLE7w5rDIWYYSnTkRwL81kQWyczbledHDLAZBFxNgH+gx40Zq2zgv2ku4IkFBEAABMwgoI8Smz3rHTOGQZ8gAAKCADug2BGlLalpqZpoyac+uiU/P9+ScXmQAwcOJDQW0iYTwoeDSwnI52T5/Gw3IDjE7D4DGN/1BC6++BJlw4YvUEdMwYAAAi4gwDNODRk0SGnKtX0mT5mi1iGAAAiAgBkEru3WTXXLD+lPPfGkpREjanAIIOATAnoHlN5BZQUGOcOjdA5YMbY2RlJSVU2M+hNpk1GjQsMIBORzctvLLo/Q0tpdcIhZyxujeZBAkwsvVFYVFp5QMgQQAAFnE2BnWL++fYLeGE966WWy4ybZ2aSgHQiAgNEE+HtG1uXhGSdvvflmOMWMBo3+QKCUgHRASceUlYDq1Kmjhjt0qKzAv9pogRBr3SZNJaRNaiTwGQ8BjtBctHCROrRJE2tTltXAIQQ4xEJAwSYQiIWA/GGRtQli6QNtQQAErCXAaZJ6Z9jY8eMps12mtYpgNBAAAd8SkA+YDIGLDT/x2GO+5QHDQcBMAjt37FDdS8eU2miBUKt22ax6Vs40KWukxmsm0ibjJYfjmMCa3DVBIOT1FLTDhpUzbRgTQ4KAZwnI2gSeNRKGgYBLCBw5coRyV+dSUdEJ4oKyfCPKRXR5hiSOxpDLwEBkRt9+feUmyCAAAiBgKgF+IHh/4QJ6Z+ZM9eac36Czoyy7a7apY6NzEPAbAVlHSzqmrOTglJkm47FZq5uszRLI91J4iRgPSX8es3HDBmU4R0fz9eSUBQ4xp5wJ6OFaAk6ZIcO1AKE4CBhMgKO/pkx+JWjWyEhD8IySKKIfiRD2gQAImEGAHwj4HiI1NZX2799fEiHG4zz+2KPEzjInPTCYYT/6BAErCcgsDumYslKHpCplMzza9RJdznYZq+3X39BHfU99+unaWA9Hex8TkLOT6qOj7caClEm7zwDG9xwB/ZSynjMQBoGAQwlwfYJRI0fS9T17ReUMu6DhBSXRGXCGOfSEQi0Q8AkBdnw9/Oijylp+UF764VK1DgEEQCAxAvoZJhNxCiWiSaPURkGHW/HMwLbLJZE6qe07tFdd7f52N3EtViwgUBGBtWvWBtXrdVK6JOsOh1hFZxD7QSAKAjwzHRYQAAH7CHB6JBeklgU7WRt2enE65PARI4iL6PI/DtXmmSRXBML9EeFp3znDyCAAAmUE+LuIv6u0Zfq01zURnyAAAgkScMIMk5oJLVq20EQqLgp2VqkdBgp62xPpmp1pUv/Fixcn0h2O9QmBjRs3Kkv5+nFa9DNSJtXpgQAC8RNo3jxdRaRY8eMWv6Y4EgS8R4Dffl6bnR309okdYc+98AIcXt473bAIBDxLYMBNN6n6hhx9wW/VUaPHs6cbhllIwAkzTGrmJidX00TatWun6/7G2152uUqbXPf5Z0Sj7lX2QACBUAQ+WlYW8cxpt05bECHmtDMCfVxPgH/csIAACFhDgJ1hHBkma3FwlMXCDz6AM8yaU4BRQAAEDCLA6VQcxaotiwIF97GAAAgkToAn19GW5OSqmmjLZ5u2bdS4POGPlQu/LEx06d69u+qCC+xzhD4WEAhHgK8PfsGjLS1bttREx3zCIeaYUwFF3EzArumb3cwMuoOAEQSeeOwx9aaS+2Nn2BNPPem4cGwjbEUfIAAC3ifQq3dvZSSngOvr/6idEEAABKImsH7detX2wqZNlWyHkJRU5pCTM1+apYvMXKlXr37Cw7DjXpaK4dm8sYBAOALy+mCHrL6OXrjjrNwOh5iVtDGWZwnI6ZutftvjWagwDAQqIMDpRLJmGNcGY2cYFhAAARBwKwF9seE1uWvcagr0digBLuTOE9B07tSJGtZvUCJ73fFaWHhcnY3GjZso2Q4hrXGaGlbOfKk2GiyYkbnSrVtZlNiGL8qcjQarju48QEBeH1dckelIi+AQc+RpgVJuJmDF2x4384HuIGAEAb55H3nP3aorfuv01DPPqHUIIAACIOBGAlxsmJ372rJxwwZNxCcIJExg+rRpJTMx88skLY2J5XvuKvs9TXgQB3bAqX3aUiWpiiba8plUJUmNK8s9qI0uELICzlRtkS8mtW34BAGNgLw+5HWj7XfCJxxiTjgL0MH1BOx+2+R6gDAABGIk8PprrwfVDeMC+k6btSZGk9AcBEAABEoIdLqysyKxZAlmcVMwICREYN7ceTRuzNiQfazKyaFlS5eF3Of2jd/kfxNkgt2zS+tTxjhiz6rFqBIv6S3Sg1TmiH0sIKAnoL+29deNvr1d63CI2UUe43qKgHzbZEX4s6fgwRgQiIEA33S1atGCpkyerI7iumF23+AqZSCAAAiAQIIEeFp6beEIEv0DvbYPnyAQLQF+MH149GjVnGtATZ4yheS1tmD+fLXfS0JRcZEyR9a+UhttEOzSQ5Z4ScRsfgEpJwDJWbkyke5wrEcJbN60SVnG3zVOfXENh5g6TRBAwBgCbg1/NsZ69AIC5hF46okn6ZaBA4Miw3i0ocPuMG9Q9AwCIAACFhOoUaMGydngNm/ebLEGGM5rBB647z5lEjtj5s57l7K7ZtNdd9+jtnOUmBdnDJQP5c2bB0c2KeMtFqQeUj8z1JATChjZf+errlLdffopIsQUDAiKwMfLlyv56muuUbLTBDjEnHZGoI8rCSA6xZWnDUq7iAA7w2bOmBGkMb+dfOiRh4kfHrGAAAiAgJcIyOLDsiixl2yELdYQ4LphWr0wHnHSSy+rmd4y22X6asZAo1IGEz1zycllM00m2pddx7ds2VINzdcXIlkVDggBAlzrV9bua9mqlWO5wCHm2FMDxdxMQJ8z7WZboDsI2E2A65pIZxi/3X5/4QKa/uYbNHjIELvVw/ggAAIgYDiBjNatVZ+5ublKhgACsRDgh9JXp05Vh/CEDewEk4vXZwyUEVJGpQxKfvHIFzZtqg6T+qmNJglJScY54rgWGiJZTTpRHuh2y5fBtfGcHDwCh5gHLjiYAAIgAAJeJcBvHEcMH67M01I9nPzDqpSFAAIgAAJxEpC1nbgUgxdT2eJEg8NiILD0w6VBZQbuf/DBckfLmd/kjHDlGrp0Q2HhcaW5UybBMtIxpYyLQkhrnBZFq+ibyEjWFZ98Ev2BaOl5Ahs3blQ2ynpzaqODBDjEHHQyoIq7Ccg/9uKiYncbA+1BwAEE+M32sDuGKk00Z5h+hibVAAIIgAAIeIQAp4Lzd5625OflayI+QSBqAtOnva7a8gQ0oUoM6Gd+81qWg0zbkpNgKTA2CNIxZfZkXPv27TXNQulM5Rp0WEBAI7Du8880kdq0baNkJwpwiDnxrEAn1xPYtWun622AASBgN4EnHnssbN0Tu3XD+CAAAiBgNgFZeBv3FWbT9l7/PCuzrB024KabQhrJM7/JiESzi7yHVMKkjfxiTS6pqaly1RGy2ZNxyWvAaIP1zlS+5rCAgJvqh/HZgkMM1ywIGETACwUyDUKBbkAgYQL8hlqmbgwfMaJc3ZOEB0EHIAACIOBgAvKtupV1hhyMBKrFQGBRoNamtnAWQ6To6raXXa41JS9da/n5wZGV7PxzwqIv++DWlGjmKTNkZJqcEzhDB3sIuKl+GBOCQ8ye6wSjepCALJB56OAhD1oIk0DAGgL8ZklOEc9FW28fers1g2MUEAABEHAIAVnvyMy0J4eYCzUMJMC/o/KlUq/evSP2npGRofabncKnBrJAKDhcoEaRUXBqo0OEgoIyPc1UyYwIOem4l2lyZtqBvp1NQDpGpcPUqVrDIebUMwO9XE3gwIEDrtYfyoOAnQTmzpkTlObx3AsvkFPe6trJBWODAAj4i0BKSooy2My0JzUIBM8QWJO7RtnCtejatW+n1kMJqWllqYRemsTh8OGyF9TJydVCmW7bNumgs6r2sBn3Uh06dFQMuV6bW6PdlBEQEiYgHaPSYZpwxyZ1AIeYSWDRrf8I1KxZy39Gw2IQMJgA30jpp4jXpxYYPCS6AwEQAAFHEtCnuHmt2LkjoXtEqZV/XaEs6date4Uvlbw6iYPM2Gh60UWKiRME6aAzq0agFd8Z/D0lJwCRkxg4gTN0sJaA2+qHMR04xKy9RjCahwmk1Cx7k+ulcHMPnzKY5kACr019VU0RzzdYoaaId6DaUAkEQAAETCEgo0hk+pcpg6FTTxDQp0vKmQAjGejFSRxkxkbVqkmRzLd8X506dSwf06wB2emqLdIZq23Dp38IuK1+GJ8ZOMT8c32GtbRh/QYk/4VtiB1REzB7xpioFUFDEHARAX6TOXPGDKXxHcOGhZwiXjWAAAIgAAIeJyCjSGT6l8fNhnkJEJDpktxNZrvMqHqTqU1eKaxfWHhc2S5r8qmNNgq1apdllridd0br1opkbm6ukiH4j4CMdnRD/TA+Q3CI+e86hcUmETCjUKVJqqJbEHAkgSmTX1F6cSH9fjfeqNYhgAAIgIAfCUgnxY7t2/2IADbHSGDjhg3qiB49eyi5IkE6jLwyiYNM36uS5IwZJis6D2btN9M5IWvUcVCAFamaZnFCv4kRkM5d+fuVWK/mHg2HmLl80buPCOgLVeLHwEcnH6YmTID/Xlbl5Kh+Rt47qsKaJ6oxBBAAARDwKIGkpKrKssLCE0qGAALhCCxZsljt6nRlZyVXJOgnceDUSzcvev2d9uK6ZatWCq9ZDkgri/XL9O5VOauUbRD8RUDey8tr3MkU4BBz8tmxSLdv9+4h+c+iYTEMCIAACCgC+uiw7K7Zah8EEAABEPArgbTGacp0+aChNkIAAUHgm/xvVB1O3iydFKJZSFE/iUN+fn7Idm7ZqNdf/+LaSXaYNYusTF8z296rr7lGDSFnGVQbIXiegD4YxGlO6HAnAA6xcGSwHQTiICDDka16KxOHmjgEBBxFIFR0mKMUhDIgAAIgYBMBGbVjkwoY1kUENm/erLTl0gM8e2Qsi3Sg5e3Ki+VQR7eVdjlFUa/9bXfo0FGh5VRVnjUci78IbN60SRnMf3NOdkIrRQMCHGKSBmQQMJCAlW9lDFQbXYGA5QQQHWY5cgwIAiDgEgJ6h4b+DbxLzICaFhFY8cknaqQu2V2VHK1Qt25d1bSoyN0puvLhXE5OoQy0WdD/bXN0n5lLcnJZ+rUZ43CEIc8Ori2yfpu2DZ/eJiDrXLa97HLXGAuHmGtOFRR1AwGzf2zcwAA6gkAsBBAdFgsttAUBEPAjAY70wQIC0RCQabUZGRnRHBLU5sKmTdW6LI6tNrpUqFOnjuM1LyouMlVHeW7NGqhbt+6q65V/XaFkCP4gIGcYbdKkiWuMhkPMNacKirqBgPyxOXTwkBtUho4gYCsBRIfZih+DgwAIuIBAvXr1lZZeSmNTRkEwhIA+ejC9RXrM/Xpppknp0KtVu1bMLKw4wOxUTqufRTJat1bYpHNEbYTgWQKcIsszjGqL2de2No4Rn3CIGUERfYBACAIHDhwIsRWbQAAENAL84ynfZvPMklhAAARAAASCCcjoc7ensQVbhjUjCcgUwXjr91RJqqJUMqvQuxrAQkHO1mrhsBUOJVM55fmr8MAoG1j9LNKufTulGTtH1q5Zq9YheJuATJGNp36hnXTgELOTPsb2HIGaNZ35BspzoGGQJwi8NvVVZQf/eGJmSYUDAgiAAAgoAog+VyggRCBgRP2e9PTgqDKz61pFMCfhXVu3blF9yNla1UYIhhPgIupygrGNGzcaPgY6dCaBnTt3KsWaNWumZDcIcIi54SxBR9cQSKmZonSVP8RqIwQQAIESAhwdNnPGDEWjb79+SoYAAiAAAiAQmoDVER+htcBWJxKQKWqJ1O+RhdHNrmtlJkeZvmXmOIn03aZtG3X4iRPm1hCzKkqu81VXKZs+WrZUyRC8TWDd558pA1tfWnZdq40OFuAQc/DJgWruJuCGH2J3E4b2bibw4ZIlSn2++e53441qHQIIgAAIgEAZAVnXqbDweNkOSCBQSoAjueR9ZyL1e5o3L4sSMyONz4qTVlxcHDSMPvItaKdDVrZv22aqJlZFybXv0F7ZwWm3bo4yVIZAqJCATJm06lqrUKkoG8AhFiUoNAOBaAikpqZG0wxtQMD3BF6dOlUx6D/gJuIweywgAAIgAALlCci6TvKho3xLbPErgby8PGV6ovV75IyMZkctKaUNFvLz8w3u0Z3d2eFAr1GjBsmZcVevXuVOeNA6agLlJvTQpV5H3ZFNDeEQswk8hvUmAf1Dvf4LwptWwyoQiJ4Av7UdfNugoDfZ/Qf0j74DtAQBEAABnxHQv2zTR7/4DAfMDUHAyPo9ckZGs6OWQphi+CbpnDG88wQ7bNmqVYI9RD7cLgd6l+yuSrGPly9XMgRvEpCRpIlEp9pFBw4xu8hjXBAAARDwGQEOm+/Qrl3QzJI9evYgfpuIBQRAAARAIDQB/cs2RL+E5uTnrbJ+j5yEIR4mMkV337698XRh+zHyAb1evfq26xONAnLW7WjaO7lNx6yOSj12ynHdWCzeJWDEhB520oFDzE76GNuTBOTsKsVFwTUMPGkwjAKBKAiwM6xf3z5BkWH8FmnYH4dHcTSagAAIgIC/Cci37ri38Pe1EMp6GQmUaNSRTNHlGlBuX5KTq7rdBNfpzzXb5OQM8vp0nTFQuEICX331lWqTyIQeqhOLBTjELAaO4fxFYNeunf4yGNaCQAgCoZxhw0eMoPfmz6dGqY1CHIFNIAACIAACkkBycjW1insLhQJCgIC+PIc+xTZWSPrj3Rjdc+jgIWV2ohFzqiMTBCuL/Vs5FqPq1q27IrbyryuUDMFbBPj7QTrO09LSXGcgHGKuO2VQ2OkE8CbK6WcI+llJIJQzbPKUKXTvqHutVANjgQAIgICrCchC5642BMobTiBvV1lBfY4k1KfYxjqg/viCgoJYu7C9/YEDB2zXIR4F9M7NePpwyjFZnTopVRYtXESofahweErIzyubwIKjAt34ohsOMU9dkjDGCQTkmyj5hsoJukEHELCSAN/8PDT6waA0SXaGZXfNtlINjAUCIAACricgC52vX7fe9fbAAOMIHDpUFg118cWXGNKxLP9RcNh9DjEJQdZEk9u9LtvtXEtvkR6EeE3umqB1rHiDgIxYbt48+Jy7xUI4xNxypqCnKwm49Q2VK2FDaccReOKxx0jWjRg7fjycYY47S1AIBEDADQRq1qzlBjWhow0E5EyQ0nFqlCqHD5c53Izq0+x+ZIF6WRPN7HHj6V/WB4zneKcew5GGPHGStmzcsEET8ekhAvIFTZu2bVxpGRxirjxtUNrJBHDT6uSzA92sIrB2zVriEHltGXjzzdS3X19tFZ8gAAIgAAIxEEipmaJay4d9tRGCbwnI6yHRgvoaxKYXXaSJ5PZsh6QqScoWJwqyPqDbo/H0fDtd2VltWrJksZIheIfA1q1blDFujcaEQ0ydQgggYAwBedMqvySM6R29gIDzCXCq5Mh77laKXtDwAhp1/31qHQIIgAAIgEBsBJz+UB+bNWhtFAGu0ykXfUF8uS8WuWrVMieS27Id9JMAuKmmkVnReHwfZsfSrn07Neyxo8eIX5Zi8Q4B/lvj86otqWmpmuiqTzjEXHW6oKzbCMgvCbfpDn1BIF4CE59/IegH8rkXXki4yG+8uuA4EAABEPACAf1Dvd4R4gUbYUPsBGTBe3Z66Avix97j6SNkpEdh4fF4u7HlOMnEFgUcOGi9evVt0YqvR1mPLmflSlv0wKDmENAX1K9Ro4Y5A5ncKxxiJgNG9/4jYNTbOf+Rg8VeIMBvi2bOmKFMGT5iBFk91bcaHAIIgAAIeIgAz+ClLUXFRZqITx8TkAWtjXR6yLpbshao21DbFRkVCyez6i45Jf2y81VXKRxIm1QoPCHI7x+3FtTnEwGHmCcuRxjhJAL6t3N2z/LiJDbQxfsEHn34EWUkP7zdPvR2tQ4BBEAABEAgfgLygSNvV178HeFIzxAwq6C1/uUul0JwyyL/Nox0ElphvzyfiY5nVvplrHq179BeHYK0SYXCE4K8Xs1y7FoBCg4xKyhjDBAAARDwAQF2/srivvc/8KBh6Rs+wAcTQQAEQCBqAkVFJ6Jui4beJbBv315lnExzVBvjFPQvd/Pz8+PsyfrD8LdhPfNII3IanZxJE2mTkWi5a5+slW3k94/VFOAQs5o4xvMFAZkvX1zknrdqvjg5MNI0AosXfaD65jQFzCqpcEAAARAAgYQJyDfwbp/5L2EY6KCEwO5vdysSKSllM5GqjQkIbkg3DGXeiRNl6cTybyZUWydsS0qq6gQ1TNXh+hv6qP4//RSF9RUMFwteKajPpwAOMRdfiFDdHQRkfrU7NIaWIBA7AX3tsJH3joq9ExwBAiAAAiAQFQG3zfwXlVFoFBMBfUkO/cQLMXUWouLskUMAAEAASURBVLFMN9y8aVOIFs7ctH3bNmcqFkartMZpYfYYt9lux6BMm2QnLiYFMe7c2tWTVwrqMz84xOy6ijCupwkkJ3v/bY+nTyCMi5nA7Fmz1TFcO0xOta12QAABEAABEIibQMtWrdSxMlVObYTgKwKyaLpMSTMKghfuZd0WfSXLThh1Hp3Qjz5tcvHixU5QCzokQEAGfMj6lgl0aduhcIjZhh4De5nAhU2bKvOQ1qBQQPAwgdmz3lHW9R9wE2qHKRoQQAAEQMB4AjJVzvje0aMbCMii6XXr1jVcZbfeyxYWHlcsrIi+UoM5TNixfbujNJJpkx8tW+oo3aBM7AS8UlCfLYdDLPbzjyNAICYCSGuICRcau5DA2jVriWcO0pb+A/prIj5BAARAAAQMIuDmmf8MQoBuBAH5QCqdV6KJYaKb7mW/3PylYXZb0VFSlSRThiksdNbEG0ibNOU029apVwrqM0A4xGy7jDCwlwnUrFnLy+bBNhAIIrBo4QK1zhNKcGg8FhAAARAAAWMJuHnmP2NJoDcmINNmzZjhTaboyqgrN9E3y9lkJAOja78ZqZuRfSFt0kia9vblpYL6TBIOMXuvJ4zuUQIpNctm+pEedI+aC7N8TKC4uJgWLVykCPTq3VvJEEAABEAABIwl4NaZ/4ylgN6YgEybrZJUxVQobom64gd1ubjR2eTlgvNIm5RXp3tlLxXU57MAh5h7r0Vo7hICMpXMJSpDTRCImsCa3DVBbVFMPwgHVkAABEDAUAJunfnPUAjojPQzTKanpxtOJSWl7OWu4Z2b1GFBQYFJPVvXbVFxkeGDyWg/wzuPoUOkTcYAy8FNvVRQnzHDIebgiw2quZeAvs6Hey2B5iAQmcDGDRtUgx49e6CYvqIBAQRAAASMJ1CnTh3jO0WPriNQXFSsdDYralBf/sBtkUtmcVHgIcRMQJ82OeudsgmZYu4MB9hGQNYvbNO2jW16GDWwAxxip+jk93+nj2dOpMfvGUz9ul9HPbr3oH6DRtLjz82kj7/+jk4aZS36AQGLCOjrfOjf5FmkBoYBAdMJLFlSNnV2pys7mz4eBgABEAABPxOoVbusRql8KPEzEz/aLiM0ZNSgmSzMiFwyWt+Cw2URYlZxMcIGrr9q9OLUki0ybVLeQxptP/ozj4C8tsyoX2ie5qF7PjP0Zqu2/kh7Fo+hO0fPoZ0/ntIN+jfauHIRzfrzi3TJwDH00qPZVP+sSro2WAUBEAABELCLAL8tlinBLVq2sEsVjAsCIAACviCQlFTVF3bCyMgEDh08pBqYGaHBjppVOTklY8moNDW4w4TDh8u4OEy1qNUxirO8P4t6cAsayrRJ1pFnKs9sl2nByBjCCAJcO1heW25MrdZzsDFC7BQVrZ1AN989+7Qz7Owa1OSKLnR9nz50Q58b6LpOLahetcoBfQvp7zNH0eAJn9MPeu2xDgIOJiDf9hj14+Zgc6GaDwmsXr1KWc3OMH16hdoJAQRAAARAwBACaY3TVD/yLb3aCMEXBA4cOKDstMpJKqPS1OAOFtyaXuw2zrFeAvq0yZyVK2PtAu1tJJCfnx80uhsnrggyILBiX4TYqV0078X5dOjUr6h6p9E0bfxASj/v18H6nfyOtrz9GA0Zs4L2vDWZ5gxoRYMv0LUJPgJrIOBIAvzjhrcfjjw1UCoBAjJdp+1llyfQEw4FARAAARCIlYB8Sx/rsWjvbgJa1BZbIZ2kRlvlNqeSjJyT6cVGc0F/iRHgtElt5lJOm3ziqScT6xBHW0Zg86ZNaiwZ/KE2ulCwL0LsH1tpzd8CMV+/uozufvKW8s4whln5fEof/CDdfWkS0f920JovvnMhYqjsVwLJyUhr8Ou594vdMjohIyPDL2bDThAAARCwjYB+NsEjR47YpgsGtocApyzJxcyUJelU2rF9uxzWkbKMnHOkgmGUMvuZQf+9EUYNyzaHSpu0bHAMlBAB+T3Q9KKLEurLKQcb5BA7QJ9Me4+2fP+f6O36sYhO/C/QvPLv6Pe/jRCoVimZfp/yf4GGP9OJ4p+i7x8tQcBmAhc2bao0kG+s1EYIIOBiAvr6YektjJ/y3cV4oDoIgAAIWEKgoKCsiLglA2IQ2wnoU5asKldQWHjCdttjUaBmzbIJKGI5zo628pnBjvGtHpOvWRldhLRJq89A/OPt379fHVyrlnv+xpTSIQSDHGL/pv1LHqfrM7NpyIQF0TnGfluDap0V0Og/m+iTtd+RvqS+puup7z6jJWv+GVitRhfUra5txicIuIqAW99YuQoylLWUQF5enhqPpzbXz6yqdkIAARAAARAwlIB8kJSz6hk6CDpzLAF5zs2ezKZlq1aKQ2HhcSU7Vdi3b69SLaVmipLdJBjxEp1fWjp96dW7t1Jx5owZpI98VDshOIqAlurKSpmZrm2l0QY5xH5D59euTpV+2k05U0fRDVffSKOnraI9P/wS3paqral7NnsVD9KiuwfQ7c++RR+u3UJ5e/bQ3sC/PV+vo6Uzn6Xb+z5CHx39H1WqdRX1uux34fvDHhBwGAE3vZlyGDqo4wICGzdsUFo2a9ZMyRBAAARAAASsI+CFWfWso+WNkeQ5T06uZplR8kHYskFjHGj3t7tjPMJ5zY14iV5UXOQ8w3QatWvfLmjLmtw1QetYcR6BLVu2BCnltFTcIOViWDHIIVabuk35mFa8+QB1ueAcOnV0C7035jbqnNmHHpu9mb4/GSr+63y66qFHqE+gPbEjbfrTdPcfelGXjlnUKfDvymv7012Pv0E5ewN1xn7Tkoa+OIIuT6oUg2loCgL2EpBvpmStJXu1wuggYAwBLoKqLZ2u7KyJ+AQBEAABEDCZgKzbcuKE8x98Tcbhu+5lBFGbtm1MtT+pSqCOs0sXN+vuUuQxqc2ZBT169lDHrPzrCiVDcCYBK6NTrSRgkEMsoHKlJGqQNYxe+XglvT/xDsqqz46xL2n2wzdQh86303PzvyznGKt0fhcau2AOvTDsGkqrVrm83ZWqU1qXYfTCu6/TfZf+juAOK48IW9xBADNBueM8QcvoCCxbuozkNW12ykZ0WqEVCIAACPiDQNWqZU6K7du2+cNoWKkIyAiipCRzJ3BqlNpIjcuCkydx0Kfc6XUPMgQrjiAgX6guWrjI0deXI4DZrMTOnTuVBnXr1lWy24UI1ezjNI1nhuz9IE3r1p8+nfEKvTh1If1t71/ptVG59O5fetIdd91ON3ZsSOeUercqVbuEej44lXree5wO7sqjb/7xQ0k9scrVa9EFDepTzWpcaAwLCLiPQGpqqvuUhsYgEAWBBfPnq1b8ds+qgr5qUAggAAIg4GMCKMng45MfMF1mHVhdw4cncXDqb75+sgE3XSWyVpvResuag0b3nWh/2V2z6fHHqquXrLmrc6lvv76JdovjTSIgX8B4aSII4yLE9ODPqkNXDJlA89d+RNMf7EoNzv4vHdv6Lo27rQu17/kozfnyOzopj6lcjWpf3Jo6ZHUMzDrRka5IT4MzTPKB7DoC+iLj+rxr1xkEhUEgQICv41U5OYpFj569lAwBBEAABEDAfAKyJIP8PjZ/ZIzgBAIyQtuKtECeOAcLCJhFoFu37qrr9997V8kQnEdAOuPNdOJabbl5DrFSSyqd05A6DptMH619n54fdiXVK3GMzaJHe3WiqwdNoIVfHw07w6TVMDAeCIAACIBAZAJjn31WNeCb5Mx2mWodAgiAAAiAgPkEUlLcOXue+WS8P4L+5aoVaYH16tVXYPMC2TxuWJwcFVURPyOc3LLWU0Xj2b2/e4/rlAo8cYMbZshUCvtI4HRp6Yz30u+Q6Q6x09dJJap8Xgvq9eDrtPyvM+ihPulUvdIPtG/lq3Rft2uo9wPTaNWeIjjGfPRH5RdT5Q9ycVGxX8yGnR4lMH3aNJKzTD3+xJMetRRmgQAIgIBzCehT1vAA6dxzZaZm1c+tbmb3IfsuKjoRcrsTNm7etMkJajhCBzkTqSMUiqAEz1QooxAXLy6btCnCYdhlMQFOl9YW/u7R/w5p+9z4aZFDTENTic6qnUmDn3uPcnNeo7uvvIDOPvU9/e3dsTQ460q68en3aMv3/9Ea4xMEPEVg166yQoSeMgzG+IIAv5UeN2asspWdvYgOUzgggAAIgIClBKQzpKgYM01aCt/GwaTTp3nzdEs0kbOaWjIgBvEdgS7ZXZXNHy1bqmQIziFgx3ePVdZb7BDTzDqDzmlwFd01fRmtXjiRhnZix9g/aOObD9D1mdk0ZMJC2nb8v1pjfJpMoGH9BiT/mTycr7pPTjZ39h9fwYSxthFYu2YtDRk0SI3PD2LPjh2j1iGAAAiAAAhYS0A6Q9ySxmYtofhH44i7wbcNKrk37typE/FvoBOXOnXqWKKWnNV0/br1loyZ6CBuc+JZUQsuUaZmHt9/QH/V/e5vdzv2b04p6UNhx/btymq3/X0pxcMIBjvETtHJ77fQkimP0e19rqbLm1xw2tHSpC116XM7PT5lsS4C7Nd0XnovemD6IvrwzYfphubnUaWfdlPO1Hvpuqw+NHraKtrzwy9hVMdmEHA+ATkDx6GDh5yvMDQEAR2BpwJpkbcMHBhUN2DSSy97KlRaZzJWQQAEQMBVBJycxuYqkAFli4uLadgdQ9XkMfxwzr+BXD/HCYt0SNWqXcsJKjlGB/nALp14jlEwgiJm1oKzynEawbwKd3H6XYuWLVS7nJUrlQzBGQT279+vFGnSpImSvSAY6BD7Lx3/4k808Oq+dM/z79DKDXl05KdTpxn9dITyNqygWc/fTTd0+yP9+Yt/BtcLq5REDbKG0PiFK2nFa/dQp/rn0KmjW+i9MbdR58wB9Mz7X9L3J0v78gJ12OBLAgcOHPCl3TDavQQ4TXLmjBlBBkyeMgWpkkFEsAICIAAC1hNo07aNGhQv3BSKhIW5c+YQO8H0y2tTX9Vvsn29Zk1rHGJumU2usNC59c3svFjc4ji9NRCVqS1878nOaSzOISBrCMuZjp2jYfyaGOYQO/XdB/TAbS/ThqMnic5uQJf3vJVGPPwwPfRI4N/9d1D/7JaUcnYlOnUkhyYOe5aWfhciJZIdY1ffTa+vWEnvT7yDskocY1/Q2/ddTx06Dy1xpMVvKo4MR+DbvXtI/gvXDttjJ2DVzUrsmuEIEKiYwOJFH6hGnCb5/sIFlN01W22DAAIgAAIgYD8BvHAz7hzMmztXdSbrtC1Z4oxC33IGQjseSuX4CpQDhaQkd5cs8eNEGe3atwu6ktbkrglax4p9BPSz2/JECF5aDHKI/UjbZs+gnB9OUaULBtK03I9o5qTH6Z7bh9DgIYF/wx+kZ/78Hq3KfY0GXPBroqPL6U+zv6awyZCVz6f03g/S60s/oOmP9KH/d+6Z9NPetfTJV0e9xB62+ICAvFnZunWLDyyGiV4iIB8A7n/gQfLaD6CXzhVsAQEQ8BeBxo3LUlYKC4/7y3iTrF22dFlQdNi0N95QIx07eoz0D4Vqp01CSkqKTSM7c1j5d5DWOM2ZSkapVaITZcjU2iiHtL1ZlSpVaODNNys93nqz7O9PbYRgC4GCw2UzTMoZQW1RxoRBDXKIHaEt63YH0iCrUcfhQynr/IDTq9xSiSqfn0V3D29Hlek/tHvdV1SGtlzjkg2VzmlIHYdMoPlrl9HUkVdSrV8bpG7o4bAVBEwlwDdTWEDALQS4iLC8Ztt3aO8W1aEnCIAACHieQJWkKspGmcqiNkKImcDKv65Qx/To2aPkJZCsayRnWVMNLRT0Djmuu2TF4paXYfg7sOJqMHeMrMAkFtrC59Mptfs0nfz6efhwWR3sZs2aeQ6DQR6m/9J/fuJ4rzPprLPOiADpV1T5rLOoUqDFqZ/+QyGSJkMeW+mcRnTV3ZNpysBGIfdjIwg4lUBqaqpTVYNeIBCRgCxoyg8EVt14R1QKO0EABEAABEoIIDrI2AuB6xUtWrhIddqjZ68Sue1ll6ttsmi72miTINM5rVZB75izenyM510Cme0ySUYgzZ4127vGusgyGXEoJ4xzkQkRVTXIIfY7atjkt4GB/kW57yymvJ/DFMD/eTu9+85n9DP9is7LuIRqR1QNO0HA/QQ4/FcuuImQNCA7mcCnn65V6l1/Qx8lQwABEAABELCfgP4lBe4vEjsnsl4RO5v4wZwXOZvaV199Fdcg7GybN3ceTZ82LaGIFxmh1ry5t2r4xAU2wkFufCEtHUERTPP8rr79+ikbZ896R8kQ7COwb99eNbhM11cbXS4Y5BCrTpf1604XVDpF//5iHPW86hZ6fNJbtODjnMC0xato1colNHfq0zTkqr407otAnYNfNaN+PS4KxJNhAQEQAAEQcBoBLuYqZ9lCuqTTzhD0AQEQAAEiO6OEvMZfpku2b19WIiAtrawWlfxdjNZ+dobdGqiL9PDo0TRuzFi6vE1b4pIEiS7JydYWje+YlZWoyqYer0+t07+QNnVwgzqvV6++QT0Fd+M2B8a13bopA7h0B9f2w2IfAf4Ok999XoxONsghVol+3WIoTXriGkoJOMV+2ruGZr38NN0/dBANvu02GjzoLnpkwluUs/cHokp1qctzz9MfL0my78xiZBCwkIC8iSguwhTCFqLHUHESWL16lToS6ZIKBQQQAAEQcBQBGSWUtyvPUbq5TZnc3FylcqcrOyu5UWpwuZZYI/EmPv8C6WtbjbznbuKHzFgXmbJpZ9qSjFSL1Qaz2hcUVFSZ2qyRnd+vrDfofG2ppESHfHZaMH++G9T2rI75+flBtum/E4N2unTFIIcYW59MF98ymT5cMonu7JFBKWdzpTCxnF2bMnrcRc8veJcmXd+IzhK7IIKAXwjs2rXTL6bCThcT+Hj5cqW9rJ+iNkIAARAAARCwnYCMEioqOmG7Pm5VgKOi5SQyspA+2yRT2WJ5sclRSzNnzCiHhceaO2dOue0VbSgsxDmuiJFX9ifq4JYzbrqRSa/evZXaq3JyEko1Vh1BiIuAvBb1341xdejAgwx0iLF1Z1K1i3vQyJfepU93fE3rc3No5arAv8+30M6da2nuSyOpV/r5gVkmsYCAfwjIG1b/WA1L3UqA31rLt9kdszq61RToDQIgAAKeJiCjhA4dPORpW800rqKoaJnKFsuLTVkQnJ1qAwOpk9oyb+5cTYz6U9bxadmqVdTHGdGwTds2RnRjSR8yusiSAU0YJFEHt7yPM0E907vM7podlBL+4ZIlpo+JAUITOHSo7Lelbt26oRu5fKvBDjFBo9Jv6Lx6Dah+g8C/mtXgBBNoIPqLgLxhPXGiyF/Gw1rXEdjy5ZYgnd0y3XqQ0lgBARAAAZ8ROHDggM8sNs5cOYNaqKjophddpAaL5T7uo2VL1XFcKHzosDvUOtfk4ci0WBZZxyeW44xuK3kZ3Xe8/TkxjTNeW3DcaQL9B9ykUMTjQFYHQ0iIwPZt29Tx8plWbfSAYJ5DzANwYAIIGE1AfqkY3Tf6AwEjCGzcuFF106NnDyVDAAEQAAEQcBYBGSXk9hQpO8lySpa2ZGRkaKL6rFq1rO5xtPdx+slpuFA4zwwqU44WL16sxqhI0Nccw8uqiohhv9sJ9B/QX5nAzmAU11c4LBW2bi17US5/cyxVwuTB4BAzGTC6B4GaNWsBAgi4hsC6zz9Tura+1D0pEkppCCAAAiDgQwJuT5Gy65Tpo7TSW6SXU0U+BMqHw3INxYbNmzerNU6XZGcYL1dfc43aLn9v1cYwgr6wdZhmpm1200yFKFVi2mVgacf8NyPTX1Fc31L8JYOxI17WV/TiDJNsKBxi1l9bGNFnBFJqpiiLZf0HtRECCDiEgL5+WMuWLR2iGdQAARAAARDQE0hNTdVvwnqMBPSOqypVqpTrQT4E8sMhF8uvaJF1d664IlM1l841dmLqI79UwwiCjDKL0MzQXXKmwmidgoYqEENnbk3rkqm5MZhbYVM3RxOiuH6Fp9fUBnpHvObYN3VQGzqHQ8wG6BjSvwScUv/Bv2cAlkciIOuHVT+3OnlxauVI9mMfCIAACLiJgN55s2VLWWqLm+ywU9edO3ao4aXjSm0MCPwQyL+J2pKfl6+JYT9lamWt2mWZAnrnhPzdDdtZYIeskZWcXC1SU9P3yYgR0weLcgAn1jWLUnXVTKbmqo0+F/TF9eVEFT5HY4n5coZJGa1nyeAWDgKHmIWwMZQ/CeANrj/PuxutlvXDmjcvnzbiRpugMwiAAAh4mQCn42GJn8Cnn65VB2e0bq1kvSB/E6OZaVJGUcmoMO5XPlhG05deFztSAnEvqz8Lzl2PJ+rQudYQ3TFsmFJv9qx34oqqVB1AiImAjHStU6dOTMe6qTEcYm46W9DVlQT0b3D19SpcaRSU9iQB+UbbTVOse/JkwCgQAAEQiIJAvXr1VSv5Nl9thBCWADsOZOR+Wlpa2LbyN7GiaCTuV0ZRyZRLHiCWvjSFdmzfrolkR0qg/l42mrRRpbDFgt9r9+rT3CzGb/hwPCGFtvDf1ZrcNdoqPk0mIJ8LZKSrycNa3j0cYpYjx4B+J1BUXOR3BLDfoQTkTFv6N9oOVRlqgQAIgICvCchooaKiE75mEavxesdBpDIBsqi8/K0MNabsl1Mt9XV3ZF8ykixUX9q2wkJnnduCggJNNUd8yllWZe1eRygXhxIVOV3j6NK1h/Dfj5z1/K0333CtLW5TXH4/efm5AA4xt12Z0NeVBGR4vCsNgNKeJ6CvPaOvc+J5ADAQBEAABFxIQEYLHTp4yIUW2KeyrMtV0X2afvbJSNH+sl+ZaqlZmppWNhlCtEX6pcPHrgdTWUdNs8Upn5hl1Slnwhw9bho4UHXM51p/z6p2QjCMQEWRroYN5ICO4BBzwEmACv4iIG+U/GU5rHUyAZlqY8cMVk5mA91AAARAwA0EDhw44AY1HaOjTEOsaIY/ThmUv41ydkq9QbJfmR6ptdNHjEUTbeUEh4907hUXFWvm4BMETCfAL2llvcTFiz4wfUy/DyAjXZmF/nvLS3wMcoj9i7YsWUKfbj9CP57yEh7YAgLGEJApDcb0iF5AwFgCG75Yrzpse9nlSoYAAiAAAiDgXAIyWkhGETlXY+do9tVXXyllmjRpouRwgvxtXPHJJ+GaUW5urton0yPVxoAgI9JifVGqr0km+7VKjmcyAKt0cwIfq2ytaBx5nVXU1un7R947Sqk4c8YMcnIdO6WoiwX5otxL11GoU2KYQ2zztAfo5uzLKKPtdXT7Y3+iOR+up7xjP4caE9tAwHcEZErDiROoIea7C8AFBsf6YOACk6AiCIAACPiKgBOiiNwCPJaC+ppNGRkZmkjh6ohxKqUsqC/TI9XBAUHO2FZRqqs+PczLkRqSUbQyn0u5gI+k4R25Xft2JNN2Z8+a7R3jHGiJX2aYZPQGOcS0s3iKfjryFa38yyR69M4bqUt6c7qiz530zJT3aNXWg4ge0zDh09cE5IwdvgYB4x1DIJ4HA8coD0VAAARAwMcEUlPL6lH5GEPMpuvTgSIV1Nc619cRW7tmrbZLfcpUSk7xCueckTO2uSXVNVT6pzLcRkF/Lm1UxRFDezWdldOW+w+4STGePesd0jtD1U4ICROQz6vy+yrhjh3YgUEOsVS6ecYSmv3KE3RHn050SY3/KzX131SwYSm9/fwDNLhHJjVLz6bBD0yg6QvW0vbvfiRkVzrwioBKphDw+xTQpkBFp4YR0N9MRvNgYNjg6AgEQAAEQCBuAvyQKBd9NJHcB7mMgExTjDYdiFnLtjkrV5Z1WCrJ8gNXXJFZbr+2Qaa6ypnctP3yUzo45PiyjdUyZkE0nri8JhLp3cnprInYxcf2H9BfdcGRmGty16h1CMYSkN9L4VK/jR3Rvt4McohVosrVG9Gl195C9z83nRat20Trls2kFx4ZStdd3pCqVTpt4KnjO2jVu6/SuHsHUrdLW9EV3W+nx1+eRR9/uYeOn4R7zL7LACObTUBOAb1v316zh0P/IBATgXgeDGIaAI1BAARAAARMIyDTiEwbxGMdyzTFigrqS9M7X3WVWl2yZLGSWeBolUULF6ltGa1bK1kvJFVJUptkiqXaKAQvOziEmYaI+FswBKNjO+GIy4E336z0m/TiRCVDMI4Af5fJ7yWv1+UzyCGmOwGVfkO/b5pJPYeMphdnraD1W3Lo/deepbtv60oZKWXRY0e+WkGzJj1Kf+yVRa0yOtNNw5+mP7+/irYe/gHRYzqkWPUOgd3f7vaOMbDEEwTkjFixPBh4wngYAQIgAAIuJyBn/5OFkF1ulqnqf/3131X/tWrVUnJFQvsO7VUTfmBctnSZWtdHq3DNo3CLPhI72sg+WXssXN9+3i7/FvzMwcu2d+9xnTKPn6nk36DaASEhAn7LHDHHIRZ0CgLRY9UaUPrVA+iux1+hueu20uZP5tCfnh5ON2RdKKLHvqV1S9+iiffdRr0vS6dWV99Ko597m5Z+sZP+8cMvQT1iBQTcRgA1Ptx2xvylLwrq++t8w1oQAAHvEigqOuFd4wy0TE5AkNY4LeqeOUKlR88eqv2C+fNDytxGn86qGpYKXGNMW2RapLZN+5Qvrbxey0ezOZZPGeUey3Fo604C6enpQanL8m/QnRY5T+uCwwVKqRYtWyjZq4IFDjE9urOoWlob6jrwPhr/5jLa9PVamv/mRHrojh7U9oJqdDq78iQd37Wa3vvzU3RX3y7UtmUm9Rj6Nm37r74vrIOAOwjob4p4FiIsIOAEAiio74SzAB1AAARAIH4Csti5TAWMv0dvH6m/B+MH7FiWHj17qeY82yRHqHCfcubJTld2Vm3CCfXq1Ve7IqVFFhbCyalAQYiJgFej/m++5RbFgf/uoo2wVAdBiEjg8OFDan/dunWV7FXhTLsNq3RObWqexf960eDRP9PxPV/TF+s+pc9yVtLKT/9OR34K1Bb7qYD+nruD/hEQL7JbYYwPAgYQKCouMqAXdOEUAvxDvCpnVYk6XPAz3KxSTtFX6uG3sGhpO2QQAAEQ8BoBt8xYaCf3vLw8NbyM0lIbKxAy22USR01oUWaPP/YoNWjQQB3FfWZ3zVbr4QR2VmhOtBMnorsv9Hpx63Cs/LZduy4Stbtq1bJadYn25aTj+W+Q/860MjTvzJxJsTq2nWSP03SRk2Zc2LSp09QzXB8bIsQi2RCIHmvQgq7ufxc9Pf0D+nTz57Rk3iv05B/7UMe0pNLosUjHYx8IOJeAH0JOnUvfPM142vXrA2+Lp0yeXPLv8jZtS94UmzeisT3LejO4Ro1li95AAARAwAoC0klSWHjciiFdPYaMfpBRWrEY9fCjj6rmXEtMc47xxpH3jlL7IgnSWbF927awTaVzpEpS8KyiYQ/y6Q4ZLelTBL4xW/6d8WQWR44c8Y3tZhsqJ4CTvy9mj2tX/w5ziAVjqHRODWp6aVf6wwMTaPriR6lD5eD9WAMBNxFITq6m1EW9A4XC1QKnG4685+5yNjw0+sFy25y6YeeOHUq1iy++RMkQQAAEQAAE3EFAOkmkY8Yd2luvpYx+iNeBwtEow0eMKKc8z4AXTXQYHygfNOHILIcy6g1IEw5GJWvOBe/x1hr/nckIz9emvuotA220Rou8YxXk74uNKpk6tKMdYqZajs5BAARAIEECr7/2etC0xFp3/ECir1Gi7XPap0yvQbFep50d6AMCIAACFRNISUmpuBFaKAJGRT/cO+peejuQqsUF9DtmZdHY8ePpiaeeVONUJMgHzXCOTH7xJhekhUkap2V5H1N+r/+2+KnmXN9+/dQJnjljBqLEFI34BX09Nj9858AhFv/1giNBICYC8i1ktLUiYhoAjS0lwDeps2e9o8bkN8XyTdXq1adriqkGDhVkKkbLVq0cqiXUAgEQAAEQCEdAX7dS/0AT7ji/bpfRD4k6E7mW0cRJk2j6m29Q3359Y0IazQzk+jqfMQ2AxiDgcQL9bryRqp9bXVnp1ygxLt8yb+48QxyCcsZb+VyjIHtQgEPMgycVJjmfQKRaEc7XHhoygaUfLg2KDrt96O3UJburgiNTMtRGhwn6egvR3Jw7zASoAwIgAAIgECAgHwoBJDwBvbOwUWqj8I1N3qOfgVyvm354u89xzZq19Co5bt0NOjoOmosV4r+hO4YNUxb4LUqMs1Fu6N2bbhk4kB4ePZq4jjHPepvIIme8jbfGYiLj23EsHGJ2UMeYviSQlFTVl3Z71ejp015XpnHNEP5R7pjVUW2TkVdqo8OE/Lx8pRHfaOtvztVOCCAAAiAAAo4m0Lx5utKv4HCBkiEEE5BsnDCRTEURGHLiG3mOg62yZi2lpvNTc92gozVn6/Qofnj28GuUGGeqcM1ifbr1iOHDqSLneqRrUNagk9lNkY5x+z44xNx+BqG/awikNU5Tusr6FWojBNcQ4DcyMuWie4/rSnTXR1g5vY6YfAtk9422a04+FAUBEAABhxOQsyg6XFXL1ZNs6tata/n4+gFlBEaoCZeKik7oD8G6joAbXkDqVLZsVT57WDaoxQP5NUps7pw55ZxhGvopk1/RxJg/ZQ06PzhUGRAcYjFfJjgABBInIJ0pifeGHqwmsHjxYjUkv93VCk7yj7J825uXl6faOVGQb4GaXnSRE1WETiAAAiAAAlEQkG/yUac0PDBZzuDCpk3DN7RoT3Jy5OwBOYOiPMcWqYdhQMAVBPwWJcYlT8aNGavODU/s8dAjD6t1dhLry6KonRUI0sHsB4cq44BDrIKLArtBwCgCiRZuNUoP9JM4gXWff6Y6kXXDeKN82yvfRKsDHCTs379faVOrlvNrgyhlIYAACIAACIQlgDqlYdGQjNBv3LhJ+IYW7ZFOOen80obHDIoaCe9/6rMM4rW4sPB4vIe69ji/RYnNnjVbnSsuefLUM8/Q4CFDgmpJ5q7OVW2iFfRONKOuyWjHt6sdHGJ2kce4viOgnwXK6el0vjtBURrMPxYyX7979+5BR8o3uDICK6iRQ1akHX55C+QQ9FADBEAABAwlgGLi0eGUEfpVkqpEd5BFrUI5v7Zu3aJGx0zQCkVYQYvYD9vAwTuMquMq7+0cbK7hqvkpSkzOcs+TCmjXTv8BNymuKz75RMnRCgUFwfUntX6jPd6t7eAQc+uZg96uJ1BUXOR6G/xogHzjwumR+hmqZL69zMN3Giu/vgVy2nmAPiAAAiBgBAFZTFymvBjRt1f60L+IdILzpKIotWNHjyn8SVWSlGy34JQoJP29jN1cML59BPwSJcazSMrvhWu7dVPQMzIylBzP74CcxKNjVpbqy+uCjQ6xn+n44d207Ys1tCpnFeV+/T2dKqH9C/14vIhOep087PMlASfMaORL8AYaveGL9aq3K67IVLImyEgr+WZX2++UT/kWCDNMOuWsQA8QAAEQiI+Ak5wl8Vlg/lHyd0/W+zR/5PAjyCg1/QOs3oGnfwEXvlfz9zglCkmeU/OtxghOJ+CHKLGVf12hTgPXDpMZSOktymYb5kaxzjZ56NAh1XedOnWU7HXBYofYKTr5/Ze04MWR1K9tc2p5WSfq3vdmGnzbbfTHmV/Tf0tof0fLR3Witj0epOlrD9DPXj8DsM9XBJKTqyl7Q80mpHZCcCyB3NyynPysTp0i6inf4ERsaMNOef1hhkkbTgCGBAEQAAEDCeidJYicKQ9Xzqws632Wb2ndlkiOTOnscYoDzzoyGAkEYicQKkosVqdQ7KNad0RxcTEtWrhIDdjpys5KZoHtl8EXMuIrqGGYFVl/slZt/9QWttAh9iPtXT6O/nB1P7r/T4toY8G/w5yKYjr6fREd2/oujftDN+r33Gd0/HToWJj22AwCIAAC1hDgH1Xp5NK/iWEt9CkY/OPlxEUW78UMk048Q9AJBEAABOInIJ0p8ffirSNlXU9Z79NOKyM5Mp3owLOTVUVjc7Q7lmACfpzQi6PEpAN5yuRXgqG4eG3Ll2U1BdmMdu3blbPm4osvUdtkxJfaGEFw2qQjEVQ1dJdFDrH/0j+WP0k3DZtGG4+eToasVK0BtezUni6pplPhv8VU/O8zSo0spL/9eTgN+vNW+o+hZqMzELCHgLwBw7To9pyDREaVUVX8BiaaYpP5+fmJDGnasbJ4b9WqzqlLYprB6BgEQAAEPE5A1nwpLnLmyxg7T4Gs6ynrfdqpk35s6ciUDjy8uNKTKr+OaPfyTGQ6Xfm93tzC9+Yj7x2ljONUZK9EiW3cuFHZxemSoZ5DZGSXjPhSB0YQ5KQjfnKm6rxREQglsOvUdx/Qo6PepwKO9PrNxXTD2Pdp3caV9O4bD9O1dc8K7vnMFnTPspX0/tM9qMHZlQL7CmnrxPH0l91wiQWDwprbCcT6JeV2e72g//p1ZfXD2l52eViT3PCWUtY3w8xVYU8ldoAACICAKwnI6CJXGmCC0rJGl6z3acJQMXUZLsVp//79qp8mTZooGUIZgYLDwbPile2B5GcC2V2zg6LEHrjvPk/g+GjZUmVH60vbKFkK8p5e3uvLNqFkvdNQH70a6hivbLPAIfYjbZs9g3J+CHjDKl1AfSZPp3H9W9J5ldnZFWapfD6lD5xAb4/pQiXBr//7kv7y3tf0S5jm2AwCbiHg1DeSbuFnt57yZlrO5KLXy+lvKTmNU6Z++uktkP5cYR0EQAAEvELAT0WQYz1n+vIFTvrdkylOO3fsUKbJwvVyFlHVAAIdPlxWBBw4iFA7sOwqeO6FF9QKRz7NmztPrbtR4HMrI7hatmwZ0gz53Sbv9UM2FhtlVLFMORVNPCua7xD7ZQctm78zMINkJfpNpz/SPVnnB6RolrOodq8RdEf6OYHGJ+nQ5m2EdwDRcEMbJxOQbyRlnraTdYZupwno35yEqh8WilWsBS1D9WH0Nn0apx9D6o1miv5AAARAwG4CMlVGRjTbrZcTxnfy716TCy9UiL7++u8lcrl7jvTg2ePUARBAQBCQKbdisy9Frukr08iff24C6R3jbgKTu7psUi/ORAkXwaW/p9d/l4SzWUYVO2XSkXC6Gr3dfIfYP/Pp68NcNyyZ2nRpS+dH5w07bWeletS2XYMS+dSufNp7ehpKoxmgPxCwhYD08tuiAAaNiYB0bEVbP4wHKCo6EdM4VjSWKQYyVcOKsTEGCIAACICAOQQQhR6eq/wNlw/J4Y+wbo+M9OCoMH5o19cstU4b946UnFzVvcqH0Pyb/G9CbMWmWAg8O3aMas7RUq+/9rpad5vw/nvvKpW7deuuZKMEP0+2Zb5D7MciOvE/PlVn02+r/ybGc3YmnVPl/04f85+f6SRmm4yRX3TNG9ZvQPJfdEehVTwEZBhrPMfjGPsIbPgiuvph9mkY/cgyxSA5uVr0B6IlCIAACICAYwkgCj38qZEvp5zmOOFID1l7dE3uGvp4+XJlTKSapaqRBYLT72EvbNrUAgrWDVFUXGTdYB4diaOlho8YoaybMnkyudHRyOmSMoU6q1MnZVMoIR6nv5xsq1atWqG69ew28x1iCt1/qeiHWAvjnwzUuSk83cOvz6JIZcfUMBBAwMEE9GGsbvxSdjBeU1XLzS0LVXZ7cVs5c5Wc+dRUgOgcBEAABEDAMgKIQg9GLVNIneg4ad++vVL4rTffCHr4jVSzVB1kgaC/h7VgyAqHkFEtFTZGA18SuH3o7UEO5/HjxrmOw+xZs5XOXN8rs12mWq9IkNGmkdrKOsny5UqkY7yyz3yHWJ0m1CyZ8ySP0sa1X1NMvu5f8ih3xb4S1pUap1L9M72CHXaAwGkCePvjjiuB38zIwpRuTzN0w9Tz7rgyoCUIgAAIOIdAampqkDJurpcTZIgBK/+fvfOAj6rM/v4vUpUMCbBCQuhJCF0CiLgUTbCtrg1XwdUFG6Iia0FRRFfXvqz1Rf+uvawdxd7WJYjogkpIpASS0EOKq5IKSxHzzjPJPPPMZCaZydx755bf/Xxizn3uU8753pG5Ofc851RXV8lZevY0X/TD5BNOlPqpkSAiciySP37lJA4R1KgWh5gctplWf1YN29AWOsbHx+POu+6WvYTjx0oJ9sW/46++8rLUf+q0aVIOJUQaBRv4XWH2aNBQdre2XX+HWNtBGJ/Vw63fr/j5rSfxz017w9R1L7a+sgjPbhZRZR0w4NgRSA5zJLtFRmDL9m1QfyIbzd6REuAXVKTEYt8/8OG0pbekQ4YOjb3SzWjg5LdAzWDhJRIgARKwNAHxh596BCaSV685TVa/x81YsfHU005FsMpuf7zgQqfdKtqrEQGmxPCBFP9/qdsIrZRg//XXXvN7Kf/700/3GRZCUqNgw4miDPyuaOnvnBDLWrZZf4cYfoPfnnMSUkSQ2K/f4aGL5+P1whp31clmjvoaFL02H9Nvz4HHfXbYSJx35mC0aWYIL5GAVQioX1DhhrFaxTa76rlp0yZpmrqtQTYGCJ07uwJazHPq9LdA5rkT1IQESIAEtCcQzKmi/SrWmlFEeatHYCSdei2W8l9uv8NveREdJrZ78QiPAItKhMfJqb1unj9fmi52fdx+223y3KyCeGb/xxNPSPWmz5iBSJ1V4URROr3YlgEOsTi4JlyFO84bAOETqy9/HwtOOQFnX3M/nnl7BTY3ZNxHfV05ivNW4MNXH8ZNZ5+AU+e/j3KP1+xwDJ4zD38a0EF+GCiQAAmQgJEECjZskMupb11ko4UEp78FstCtoqokQAIkEDGBvn37yTFqZUXZ6EChvLzcz+rASDq/izE8EVsjX3jpJU8ky1lnn4XX33gTZtU1hphCLu20vEfBQKiOjWDXndwmilfMX3CLRPDuO+9ixZcr5LkZhQf//oBfdNisK68IS82MjEFh9fN2cnqxLWOycsX1QPZdT+JvdZfipo92or7+R6x770n3j/c2APs/XoDTP/adN0jtkXzaHVg0O9O9aZIHCdiDgEhi7t2yVlMTUVY9ewCwoBXe+yVUHz1mTEQWqAnsIxqoU2f1YYnbd3WCzGlJgARIwAQE1MqKJlAnZiqojkF121TMFGpmYeEUs0rOMBF5F2m0SjOmt+qSmhuuVRPYbJDq2LCZaZqYM+388935w16Ht+jIdddegy++/NKUjue8vDy89OKL0m7hzAv3/7d4l2/7vPo3jJwsQFD/VnFisS0DIsQaibdPwzmPvI5X7piKo7q2C7gNTU/jumbi3DtfxYePnYf+7UVsGQ8SsB8BNfLIftbZwyLxhaQekW61UBPYq/PESlYfltTtu7HSh+uSAAmQAAloR0D9Y4Yv3Rq4qo7BSJNNa3dn7DdTYORdLCxUc8PFYn2uaS0CIuJy4QMPSKXNunVSbJWceemlUk+xFV4488I9XPGRpW5R/1Zx4tZjYyLEvHevXTKOueh+vH3u1cj/ajlWfLse27dvxdYf93l6HNY5BQMzBuOosRNw3IQR6NmJWcO86PjbPgSc+A+Nle+e+mZZRFRZffuC098CWfmzSN1JgARIIBICfOnWQGvVylUSm9XTHkhDKJAACbSKQGZmJmbPmYPHFy3yjBdbJ0WVV5F43yzHxe5cYWp1e5FfMJK/P8T2UPXYXLwZgW3qdTWKzIlbj411iDWSj+vUC5knX+D+UW8FZRJwBgH1H5odO7Y7w2gLW7lp40ap/bBhw6VsVcHpb4Gset+oNwmQAAmEQ6Bnz5Rwujmqj7qtjnwcdetpLAkEJSCKVaz8z9fwRhj+5bZbIV56h7slMeikGjX+1e388uolphTOu9ZsoxZFObxOtdq60Cl6WGwLMG7LpPyQ1ONg1U4Ule2RLT7hF/y47Hn8v1f/hTz39WYrUfoGUSIByxLw7mG3rAEOUHz9+nXSykGDB0vZqkJ+vm8LqOqctao91JsESIAESMBHILlnsjxR3/rLRgcK6h+XKh8HorC1yZGmtLA1DLdxvXv3truJrbZPRFvdd//f5HjhOJoze7Y8j4UgHFOXXXKpX94w4aS7fu71rVJn5MhMOU7d7SIbGwUW2zLUIVaPA7tW4Jl55+DYzCxMf3Ydfgm8I6jD+k+ewqO3zMIfxmfhnFvfwPqqpr2aDGMDCViIQHKy72HVQmo7VlX1QTpcB1Kk1V2MhOt9WyTWjDTHgJF6ci0SIAESIAESiJaASPyuHnSaqDTsJUeypcxelge3JqUXo0WDk2loFVsI773/ftlFPO+L6CyjD/FvlFj3+EmTZNE1oYNwhj2vJNWPVC81X6KaRzFwHhbbMswh9guqvnkI006agfvezENl/a+o+bkaBwLvCPai8ueGfGJwV6L8/uX5mPbHv+Or3XSKNUHFBssSCAzHFfu6eZiTQGBCfZF3IJxDre4STn+j+gTa01w+AaN04jokQAIkQALaEQj8ngp0CGm3kjVmCkz8TqeJNe5bOFry+TkcSuzTHIGp06birLPPkl1EVcePP/pYnuspiGfyudddh/HjjvVEhakvrL3OsGj+vVLzJap5FANtYrEtgxxi9T98hFuv/D98v7dxE2RcF/SNr0fTTZMuZF5wI6750yT07SgqS9bjfwVP44qrXsY27p8M/Pzy3CYEmtvXbRMTLWuGGmIsvpzsdIjcAjxIgARIgATsTSDQIWRva5tap0Y/ZGVnN+3AFssS4PNz01vHyrJNmbTU8te77oKo4ug9xNZJvZytYlvkG6+/gRMnT8Yfzp4CkdBfPcSzucgZJiLDonGGiTnVfIlqHkV1PSGz2JYhDrG92PDqs/h0969u5O2RNPHPeCJnOT6++xQcGXhH4EL/7D/iz3e9gM+WP4dZIxPcPdxOsVVPYtG/fmzSmw0kYFUCdnOuWPU+tKS3Fgn1zVQ4IXf1ammymltANlIgARIgARKwPAE+Y/huoRr94GulRAL2JMDKspHfV+F4euIfT0J9UTxt6nmaOcWEE0xEnYlosKPcxbluuflmBOaQFmvPX3ALvvjyS0/OsGidYYKCmi9RTf8SSGjnzp2yyeXqLGUnCfon1T+0ER+/vcmTID9uwAw89I9rcVJ/F0T8V+gjDu16HI8bn7wNkzuJnhX45L1VqAk9gFdIwFIEEhISpb6qk0I2UjAFgZKSEqlHaxPqB37pyQljLDDZaoxvAJcnARIgAZ0I8BnDB5bRDz4WWkhmdbaqzgwt7OQcziIgUojcedfd0mixfVE4xQJTjcgOLQhiq7qIBPM6wUTUWWA0mJhC/P+06PHHsXrNGlw2c2bUUWGqWoH5EkNtn1edZeHmSlbXsYPcVncjfirG+rKD7mUOx4jzz8FYj4MrvFXjemTh/NN6YumbpTiwtgBbDp2OzDbhjWUvEiABEoiWgFqhyw5fEmoOASZbjfbTwfEkQAIkYE4CajJlc2ponFbV1b7X6U6NftCStups1XLeaOdi1Hu0BDn+1NNORVnZLbjvnns9MIRTTGxrnD5jBmZdeQUCc0B7iYkIMFGpUaRZ+fabVVi7dm2TCDBvX/FbOG9PP/0MXHDhhdAzl6+IMhNreXOTie3zgTYEbg0NzEGp6m1nWX+H2N5a1IjdkkjAwNQeLUSGBaJ2b6FM7+luLAV+2o0qMQ8dYoGQeG5BAuOOHScriXC/vzlvYOCXROCbFnNqHb5Wam6B8EexJwmQAAmQgNkJiGTK3miE0l3uZ2gHH/n5edJ6O7zYksZQIAES0JyAiNISf5c9vmiRnFsk2hc/Ipor0CEs/n3xOpzkgBCCSN4/+YQTIRxvRh3CUex9uS92JAU6vHJzc6UqZo3+lArqKOjvEGvXAQ358X9B7Z79EZryC/bU/S/CMexOAtYiwP3+5rxfRUVFUjGRbFOL/fxywhgJ3i9FsbyaWyBG6nBZEiABEiABnQmoW/91XsqU06t/rLriXabUkUq1jgBTjrSOG0c1T+D6udfj6KOPxnXXXuPn7FK3FjY/Q8NV8bfDhAkTke1OoJ85KjMmf0cMGTpUOsTU7eNe/bXIleydy8q/9XeIJfXHwM5x+K56N75bsR61p/dwp84P86gvw5pVOzyd40YMRXq7MMexGwmYnADD9k1+g9zqqYl4R4wYEZHCVogmS05OjsgmdiYBEiABErAGgYyMQdZQVGctA/P/6Lk9SWdTOD0JRExg9JgxEY/hgAYCEydN9CS4f/2119y5wF5vdgukl5mIsBrmTpp/9NixnmiywO2J3n5G/h40yPddILZyBh5ffbVCNgm9nXro7xBrOwjjs3rglXcr8PNbj+HZP43FtcPDcYn9gt05z+Hpb2vd96YDBhw7AvzzzakfU/vZrYbtm6kKof1It94iNd+W2H4SyWHGaLLAPwzM8EUdCVP2JQESIAESCI9AvCtedlQjg2WjAwURrcGDBEiABMIlIJ7lxRZK8SOeocvLyv1elnsdjuIFs1mfqQcOHCjNFUW+RL4z798oIsm+WviLWyYlKj2E3+C4809Dr/eexa5f8/HYzGvR7oG7cPmEnggZ8FVfg6IPH8a8m15Dab1bp8NG4rwzBzN9mB63h3PGnID6j1HMlaECkoCad8Rub9v5h4G8zRRIgARIwHYEuDWw4ZaqW+r69u1nu/sca4OEgyAwJ1GsdGIhiViRd8a64nNuls96JMQDo2Lz1uRBRL+JY/kXy+VU4u8Cszr1pJI6CvpHiLnT6HccewluOevfmP3ODtRX5OChC1fg+REn4MysTKSn9UOPTkKNehyo3IUtmzdgTc7n+KKw0t0ijgSMnHsz/jSgg+eM/yEBOxDgdjVz30XxBkXNO5I+MD0qhcVbmFh/0fAPg6huIQeTAAmQgGUIBP4RZIbvoFjD6927d6xVsN36amqJWBsXaSR/rPXVa331Za5ea3BeaxHIys6WecS+++476RB7a/Gb0hCR68zJhwEOMTfeuJ44+e5HcVvtHNz17xK3o+sgKtd+ghfcP80fCTjqqsfx7FUj3ZsmeZCAfQgEOkdERcPAB1j7WGs9S0T5ZPUIvF/qtXDkYKWOwxmnVx++SdWLLOclARIgAfMRMNt3kFGE1NQHKb1SjFqW6xhEgFXam4JWX+Y2vcoWJxIYd+w46RD75OOPIIoGiJckapEAkfjfycdhhhnf6SjMeGIxFj94BbL7dWph2XZIzDgV1zz3Pl6fNx6JcS1052USsDiB2jqRK4+HWQio0VTizYodDrW6DN+k2uGO0gYSIAESCE3AyflgglHp2ZMOsWBcrNzGKu1WvnvU3SgCxx+fJZcSaXpEEMaHH3wg27p07SKjxmSjwwRjIsS8UNv1QOY5N+HpKVej7Ps1WLNxEzZv3oaK2kOeHnGuJKSmZWD4UaMwfHASjqAjzEuOv21IQDysqt55G5poWZNKd5VK3UXJYjsc1dU10gxWOZUoKJAACZCALQkkJCRKu8RLHivmv5EGtFJQCwok92RprlZi5DASIAELExA7kESOMG/O6ldefhlqdcnTTz/DwtZpo7qxDjGvznGd0HPkRM+Pt4m/ScBpBPiwat47vn79OqlcSoo93iqreSXUKqfSUAokQAIkQAK2IcCt8f63krlb/XnwjARIwDkELpt5OW65+WaPwS+9+KKf4bOuvMLv3Iknxm2ZdCJd2kwCJGBJAmrkXmudR2ar5Mi8Epb8KFJpEiABEmgVAXVrvBr13KrJLDgoLy/PT+toc4H6TcYT0xFg5HvTW0IncFMmTm057fenQWyNDDymz5gR86JfgTrF4tzwCLH6PT9ix7Zt2P7fPY1VJMMz+7DuwzBp2JHumpU8SMAeBNQkh0wMap57KvbWq0d6eusqTIoS797wZHW+WMgieaZ6OHHrjGo/ZRIgARJwEoGSkhInmeuxta62TtpsthdUUjEKmhFo7ctLzRQw4UR0ApvwpsRIpfj4eDz8yKO4aPp0qYFI3TP3xhvkuZMFwxxi9VXf440H78dji79B+b76iJl3PO855C/MQruIR3IACZifABODmuceiWpc3kM8RIsvEasfqk1Wt4X6kwAJkAAJtEzA6UnkCws3SUijyMSpAABAAElEQVTiBRUPEiABEnAygYmTJuLrVSux/IvlcLlcOPW0U52Mw892Yxxie77FoxddjkX51X6L84QEnEyA4d3mvPt6PESrb6pjYbW6PiuPxeIOcE0SIAESMJaAmkRezSFprBaxW03dJmqX4jixo+lbWbBUixX4rhgv2f1z7Yp3GQ+VK9qagIganDptqq1tbI1xBjjE9mPrqw/hcekMi0PHpHQMHzoY/bp1CFvntpnduV0ybFrsaAUCanj3jh3braCyI3TcWFAg7RTbWrU4hJNNvJmJ1aE6+dRiDrHSh+uSAAmQAAkYR8CJOSTtWBzHuE9M6JU6dzaPk8bun2tRHTCSIzDlRyRj2ZcEnExAf4fYofV468U1+FVQjuuDU25/EHdcMBpHtmM2MCd/8Gi7PwGz5Jry18qZZ2vXrpWG23HLCd+Uy9tLgQRIgARsSyAwV2RdXZ0tUgCEe8O0KI4T7lrsRwJmIFBbV2sGNagDCViOgP5VJn8qxvqyg24wcXCdOhd3zhhDZ5jlPiZUWA8CrP6iB9Xo51Sdk+qWk+hnjt0Mq1aukoub6e2uVIoCCZAACZCArgSKi4t1nV/vyQOLwzS3XmCFyUDnYHNjeY0ESIAESMBZBPR3iO2tRY0nPKwbxp9yDLoxMMxZnzBaG5JAYPUXhjqHRGXYBSc8RDN3nWEfJy5EAiRAAjEl0KVrl5iur8XiK75cgRMnT8b4ccd6fn/80ccQ0W7NHctylsnLWdnZUqZgXwKtrQhuXyK0jARIIFwC+jvEjnChs2eVtnB1Cj9nWLgGsB8J2IUAQ51jfyfLy/wrTEajUe/evaMZrulYNfGsmrtO00U4GQmQAAmQgKkIjByZKfVRv99ko8kF4fy6aPp0eCO3xe85s2fj9ttua1bzlf/5Wl7XKheonJCCKQnYoSK4KcFSKRJwAAH9HWLdh2PcoI5ulFVYv7EU9Q6AShNJIFwCrPgXLilj+pWVlcqFoi3TntIrRc4Va8HuiWdjzZfrkwAJkIDZCajfb2bXVegnosD+ctutQVV99513ISLHgh0i2l7NH3b88VnBurFNAwJqESINpotoipaiBCOazIadB6QOsKFVNIkE9CGgv0MsLg2nnH0UDsM+bFryEfL30yWmz63krFYkoFb8y1292oom2EpnNdeWXd4qB+ZdYS4VW31kaQwJkAAJhCRg5SIqTz35FNSXOYsefxzqH/nXXXsNgqWaeOXllyUP0T/SSn1yMIUWCVRX17TYR68OVs+JpxcX77zRvtT1zsPfJOAEAvo7xNABA2bchpuOSUT9lmcx5/rXULTnkBPY0kYSIAGLEdixY7vUWMsKkzU1sav8U17u2wYqjaNAAiRAAiRgewJqERX1hY/ZDRfRP6++4nNszV9wC0497VQsfOABqbpwls2/+Sa/fGLCQfbSiy/KPlOnTZMyBRIgARIgARIIRqBtsEZt2w6g6qd4TL7pZmxZcC/e/GgBTl35Bk4+Kxtjh2agT5fw8ood1n0YJg070l2rkgcJ2IeAiEJalpPjMSiWThP7EI3OEm+eEjGLlhUmCzZsiE4xjUZzi65GIDkNCZAACZCAbgQ++vAjv+iwaeef71lLRDgL59h999zrORdbI4+fNAl33nU3XC4X7vzrHVInUVDAO042UiABEiABEiCBAAIGOMS2460rzsR9a/fJpet3r8Wnz7l/ZEvLQsfznkP+wiy0a7kre5CAJQmYxWliSXgaKG3XCpPqVlx1i64GyDgFCZAACZCAiQmMHjNGalddXSVlswtvLX5Tqjh9xgyoCdMvmzkTpbtKZSSYiBQTifYDjxvn3eQ3LvA6z0nAbgSKCovsZhLtIQFDCBiwZdIQO7gICViSgMvV2ZJ621FptQKXmqfETrYmJPDzZqf7SVtIgARIIFwCaqL5cMfEop/Ie6nqmj15chM1bndHgs2eM6dJu7dBONGmTpvqPeVvmxPIys62uYXhmVdbG7ucbuFpyF4kYE4CBkSIuZCaNQXnDvolKgJtM7tzu2RUBDnYjAQGZgyUaqn5q2QjBcMIqBW47JSMVK0CNXjIEMN4ciESIAESIIHYEnDFu2KrQCtWV51hYtvjxEkTg85y/dzrkZWdhZdfegmi6qQ4RFqAiy+51JNvLOggNpKAiQkE7lQwsapUjQRsRcAAh1gysq67B44tenxwGW4efgkW+3aMNvMBSsK5z32C+7MTg/epysOSxZ/ik2efR07FwcY+7ZA0+WJcPH4cTpiRhX5tgg9lq/kJqPmrzK+t/TRUEw5rUWHSLNF/sawCZb9PCS0iARIgAesQCKywKKKvkpKSTG3A0n9/LvU7/fQzpBxMEDnFxM+DDz8c7DLbbEygrrbOxtbRNBIgASMJcMuk3rR3bcamsJxhzSlyCFW5D+Kso6fgxnueUpxhYsxBVCx9CvfdeQkmj78cz+T93NxEvGYyAsnJySbTyLnqqPlVtKgwqUb/xZKqapeaTyaWOnFtEiABEiAB4wlYoerw8uXLJZijx46VMgUSUAkUFm5STymTAAmQQKsJ0CHWanThDDyEn9d8h6j/ya7Kwf2zn8Q6b1BYqKUrPsd9Vz6IZVWHQvVgu8kIBL6pFSXDecSGgLpNQ8sKk7GxxreqapevlRIJkAAJkIATCFgpJ6Z4BhJJ8r0HKyN7SZjnN1+smedeNKcJc8Y2R4fXSMCfgEUcYvvx8481qPfX3QJn+7Fz8w53DJc4jsb8ZUXYsn1bMz8rg2yX/BHL7r0Hi71bJNuNwLkLlyDXO8+WHDxz9WTIAPiKT/Dq0h8swIYqBiNQW1cbrJltOhMIdESKLRhaHmqUlpbzRjoXIxIjJcb+JEACJGBtAmpOTLV4jBmtys3NlWoJR17gS0N5kQIJkECzBJgztlk8vEgCfgQMyCGmrHfwZxStWYP1hTuxe/+vyoXgYn1dBbaWl6Nk9Urkj3kIeQuz0C54V5O2VmFb0X8bdOs1GqP7tEL7n1fg1Xd2NMzRbhzmf/o8Lkvt6LO3TX9k3fAkPhp1G0675DVUoAo5D/8TeWfdhEzmE/NxMrEk3oAyiie2N0jdRqLH2/RY3d9ARx//uIjt54yrkwAJkEAsCajFY2KpR6i1N23cKC9NmBA8mb7sQIEESIAESIAENCBgkEPsF1R98wzm3fQYlm7f0yq1O45p1bDYDjpYiG+/rvLo0C4jHX1a4aA6+P03+I8nxKwdel12Ay5WnWHSujZIzL4acyd/ghuXutfblYvcnQeR2b8VDjg5JwWjCCQk+Ioo5K5e7UkQa9TaXKeBgJqLQn2bbnU+jDi0+h2k/iRAAiQQHYHevXtHN4GBo9evXydXGzR4sJQpkEBzBIYMHdrcZV4jARIggWYJGLJlsv6H9zDvkoWtdoYhrgtS+yQgrllTTHhRJtTviEHjhqFbxCruxfrv8tGQk78bjj06FaF9aj1w3KlHN0bQFeObNT9GvBoHkIBTCWwsKJCm2+nBSq3ClJWdLW2kQAIkQAIk4AwCKb1SpKHqd51sNJGgRlObpTCNifBQlRAEOnd2hbjirObSXaXOMpjWkoBGBAyIENuLDa++iJw9DRnA4pImYsalZ2JsaiL2ff0Ybng2H7+6JmPuQxdgcJv9qNy1BcW5n2Px+9+jsj4Oh4+8Bv985c/I7GQ1d5iaUL8PfjumG7bnvIzPPl2Mh99c25hXzIXh583C9POnYUpmMHeZsuUSvZHWv1Mzt90dJTYgFT3wOXZhD4o2l+MQejbjQGtmKl4ylMC4Y8dhWU6OoWtyMX8C1dU1siElxffHg2y0qKBGvlnUBKpNAiRAAiSgEQH1u06jKTWbJi8vz28urXN5+k3OExKwIYGSkhIbWkWTSEB/AvpHiNUX498fFjYkxO90Au5e/Axum3kOTs6ejDMuPBXDhZ+r9gccSB6HrOxTMGX6bNz06Fv499u3YHJyO/wv/wUsfLUAB/RnofEKSkL9dh3x35cvwSmX3IaF0hkmlqvFujcfwI1nZ+GsWz7G9ibFIeuw+8eG+DB07I/UXs1vgWyT2BVdPFYcxE8/16DlLG0am8zpoiawauWqqOfgBJETUB2SWr2VdsWb640lKw5F/rngCBIgARKwOoGMjEGWMKGosEjqyeqSEoWphfx8fyemkcryedlI2lyLBOxNQP8IsdqdKC4R7qzD8Jsp03FW7/aSaFzv4Rh15GH4/r87sWade4vfsD6N19oicdTFWLiwHH+Y/jy+feQxfHjGIkzpob+6UrmoBSW66+BavPN2cxO6HWOvXosLfmmHjxaeCJlR6lAtdu9u9JL9pisSW3Jf9krDIHe+/XVuH9q+TZtRiiz0C1g2tV//gBaexpqAy9U51io4ev2Kigo/+9PT0/3OW3uSlp7W2qGajVPD51lxSDOsnIgESIAELEMg3hUvdY2lA0MqEUIoLfVt9+rTx/v3QIjObDYFgcrdlabQw45KdOnaEOJgR9toEwmYjUBLLpbo9f25AqWe8K6uGDN2INz+Gt/RtifSBoov6lqsL9iBX3xX3JLbKTbhAswY646y2PM1Fn+2oyHKzK+PiU+UhPoeLZMmY/ZzOSjavg1bvD/5S/D3m8/DcE/g10FUvDkPN75d5jPq1xrs/smTUR/o6o7+Cp1AzDeGkuUIqBFJ1dUNRRgsZ4SFFVYrTAoz4uN9fzxY2CyP6gyft/odpP4kQAIkoB0BMzswCjZskIbyBY5EQcGhBEaOzHSo5TSbBIwnoL9DTNrUFq5OHeRZg5CIXv0T3GI9qr/f5M59FXDE9caEEwa7k+nXYvW/vsN/Ay6b+lQm1HdrmXQ+nvn0SVyf3d8/p1diJqZccS9eePJ8JHmMqULOw/9EXpOtk6a2lMppSEBNKKvhtJyqGQKisqf3sHPieatsm/HeC/4mARIgARKInoBWUc/Ra9L8DGr02ugxViwt37x9vEoCJEACJGBOAgY6xIIBOBy9+jS4grBjJ3b5h4i5B7RHr9R+EG60X4uKsaPJ9WBzmqSt/0y8640EW3UvshJDhXe5k+FnX425kxs3Su7Kwedr95rECKphBIHk5GQjluEaIQjU1NTKK3qWpw9MGCwX1VFQc6Op22Z0XJJTkwAJkAAJmIhAYNTz5uLNJtLOp4oavWa2HJw+LSmRgDUI8CWoNe4TtTQHAf2Tcsm8VpVYt7EM9dmJ7ogv79EW3fukuB1e32F/zVZsq/gFE3qFUKmmDo2FKr2DbfQ7Ef0HdgeWiu1y7m2SlWKP6RHutGud0fU37v2Uu9zbJnfvRqU7cqxfKL9amDTEds2WDuYZa4mQtteTkhqdwo3TipxWgW3arsjZVALqNg21PL3ahzIJkAAJkAAJ2IFAbZ3vJZBZ7Al8YWSGHJxmYUM9WibAiMKmjPgStCkTtpBAKAL6R4i1S8XIMSJp+H4Ufb4cRQfqFV3icHhKH6SIlvoirMr7WbkmxAPYtWW7e6Tdj3bo0lVsHRVHFTZtadwc2sblTh3W6AH7aTeqWiobqWzT7DgorYFrw6T8r4UIBOa0spDqllTVrts06urq/O4HS9j74eAJCZAACTiGwIDUAaa2ta7W933FCpOmvlVUjgRIgARsR0B/hxh6YOxxg901Jt3bHvOfxE13v4+iPb4kWXGpR2F0ZxEz9jO+fPMzbFUcZvWVX+OF1773JNOPGzEU6Z7k87a7BwEGdcSRXb1JvePR9cjGMgSHKlFZ4+MWMMhzeqjKHUXmkdrhN906e5gH68c28xHgA2Ds7oldt2kUFxfHDipXJgESIAESMA2Bvn37SV3Ky8qlbBahsHCTVCUhQdZal20USMAJBFTHsBPspY0kYBYCBjjEOqD/Gefj5K5iqWqse+la/G7073DzZ43VFA8fhd+fKcor12Pvinvwp0vuwj8/+ByfvbUIc/94LV7eKuLDOmLQcaNtHPF0EJW7qxs/E92RPsD7MNC4lVJcObgDm3c2Fyt3CFVbt+AHzyydMDAt2T+Bf+Ps/GVOAuoDYFFhkTmVtKFWem/TMEvZbLPoYcOPEE0iARIgAUsRKCsrNZ2+pbt8Oo07dpzp9KNC5iOg5kg1n3at00h1DLdmBjsyaQ0HjiGBSAkY4BAD4nqchr/cew6SvcnD9lW7N0O2b9Q1EeOvvg6/8zjMDqDiq+dxx5zLcdUND+G9jTWePnHJp2POHzKU3GORmml0/73I+9vJELm4UvtlYubbjc6/UGoc2ojPP2jM7dWuL9L6eKtxHoFhR490uwPFsQ0f/WsjQseI/YDlH38Hd7Yx96E61TwN/I+FCNTWNnzuLaSyZVVV35TrEaUXy7LZqm2x1MOyHw4qTgIkQAI2IZCQIFKXtHyIl0Qij6nRR0lJidFLcr1WEmD6hVaC4zASIAHTEjDEIQa4k+efci8+/OB+XHBML7eDx70VMNHr9GlwmN39xPWYkOR1kvl4xSVl4/pH5uGkHiGS7fu6mkjqgD5pfdGww7MKK175CFtCerL2YctzD+A5kTjfPaLXZbNwZjdf5vx2Rx2D33omOohdzzyA57fsC2KnOzos5zE86EnK777cKxsnjnAn5edhGQJ8IxqbW6W+KVej9GKjjbarqrZpOzNnIwESIAESsBKBwUOGSHXVysreRuEEO/ecc/CHs6dg/LhjMfe66xCYh9LbV8vfYo2PP/oYO3Zsl9MyQbpEQYEESIAESMAAAgZ6mdoicdhU3PnG2bh+Wwn2dvfmyRJWuq8dMxsvLD0Fy9//GF/l70Kd22nWc+RxOP2M8ejfyecgMoCJBku0QbezZuGSh7/Ak25H18E1f8f0y3dj7tWXYUpmNzn/oW3L8NKbr+CZJ1Y1RHa1Ox7XXDbSf6tjt4n449l9kfPmDve2yVW475Sp2DzvWlxxSVZDxclD27Ds4Xtw62NL0fBOz4XMGWdihNWQSSoUVq1chctmziQIAwhsLCiQq9jZKdm7d29pJwUSIAESIAHnElArK3sp/P1vf8Oa3DXeU7z7zrse+cGHH5ZtWgrCEfbUk0/h8UWLtJyWc5EACZAACZBAxAQMdIh5dWuPxP6p8GbJ8raK33GdUnH8+XPcP2qrReU2I3H5o7Pwn2mPYd3Bg6hY+g/cKH5CmtMX5z55D6Yo0WENXY/EpFkXIPOde5EngsgOrsXiey5x/4SYKOn3mH1uur9TLURXNpuHgMsV3nYG82hsD02qq33bU/W+B7mrV8PIrQZqTpaUXin2uGG0ggRIgARIQHMCXgeYOrFoG3vMOEydNlVtjloWzrCLZ8zwc8Cpk6anp6unlEmABEiABEhAVwIGbJksd0cwLcDN8xbgkZxIK9u4x/5tFqadfjzGTH0Ju3RFofXkbZA4+lq88OYtyE7y7HkMvUC7EZj29PO4J/vIoH3apP4JD/zfRRjewjRwO8P+/tpfkJXI8LCgIE3cODBjoNSuurpKyhT0JaAmIFXvgb6rGjM7c7IYw5mrkAAJkIDZCTS3DXHFlyuk+qIAi5pP8+8L/6b51slr/3yNnzNMrJmVnS1/4uPVHSRSNQokEJKAkS8bQyrBCyRAApYlYECEWC22LFuCxWuB4ekzcG12cgSw3GO//hLfrXPnzeq4AcXuCKleLTmFIphd/65up1jmTDz99QlY9uKH+Ozdp90can3LJk3GrEt/jxPPPR2ZzTqxOqLfibfj3e/OwJLFn+KTZ59HToUIF2s42o04D9eddQpOntG4jdJ7gb8tSUDdtmBJAyyidGDiYDu/le7ZkxFiFvlYUk0SIAES0JVAfn6e3/xqZbvjjjsOV141GyefeKKnT+XuSjz49wdw+1/v8BvT2pM3Xn8D6ouos84+C3+96y7QCdZaohxHAsEJ0EkYnAtbSSAYAQMcYsGWDbOttgSbyw6E2dnE3dr0R9Ylczw/90ejZmImpswUP/OjmYVjTUggOTkSR7EJDbCgSuXl/hGrdnsgV//oSe7Jz5cFP6JUmQRIgAQ0JyCcXOqh5tIUyffT0tMwf8EtuO+eez3dXnrxRcy68gokJSWpwyKWxVZJEXHmPUQkGp1hXhrW/b25eLPnM2NdC8ypOXO/mvO+UCt7EtDQIbYb3z79KJYUB1ZBrMKmnQ1OrZIPHsTNxcGyhwWDuw9l3y7F1z/92nAxJQndNdQ22IpsI4FYEQh80BTRS4FtsdLNrusWFRZJ08R2DbsdgX/02M0+2kMCJEACJBAeAVe8K2RHNZemt9O088/HP554At7vkSef+EfUUWIfffiRnE+sc9/9f2NkmBe4hX/X1ik7XwyyQzjh7H4w96vd7zDtMxMBDV1MXXDU6E5YcO9L2Fof3MSqtf/ybJ0MfrW51g4YcNJ4pMU114fXSMA+BET0Eh1i+t7P2lpfQv2EBH2KGojKler2EH0tCj27nbeDhraaV0iABEiABAQBEfUVzpGRMcjTTURMX3HllTJK7IMP3sfcG2+IyoH1zNNPSRWmu5Pqh6uTHESBBBoJxMIJR/gkQAL2JaBhUv04dBh1KW6/MBXa+q3aI2ni9Vh49dHoYN/7QMtIAANSB5CCgQRWrVwlVxPbROx0BL49tdt2UDvdK9pCAiRAAkYTyMvz5RFTC/nEu3wJ7UWUmEh4Lw4RKfb6a6+1Wk3xnbR1y1Y5/oILL5QyBRIggegJqP9PRz8bZyABZxHQMEJMgOuG8XP/Dy9mlcKX+asUn915FxZvB/qedxtuOyWC5M7tE5EyoD/690yEpXLpO+szRGs1ItC3bz/5wCi28zEhpkZgQ0yzY8d2ecX7Vlw2WFzg21OL30CqTwIkQAIGEQhVyEe8SDn99DMgcoiJ443XX8dlM2e2Sqv3339fjhMv/xgdJnFQIAESIAESiDEBjR1iQFziQIzPHqiYVYQtjzQEonVOH+suq6xeU7pRJAESkATU7XyykYKmBNS31epbcU0XUSZTExcrzbqLjDzUHTEXIAESIAHTExDRXt6cYKGUDSzwI5Lpex1i4jtzxZcrMHHSxFDDQ7av/M/X8trvTj1NyhRIgAR8BGL1nOjTgBIJOJOAhlsmQwHshtEz5rkr1szD9DHdQnViOwk4nsCQoUMdz8AoAIFbCo2IxguWuFgve8vLfBU0ReQhDxIgARIgAWcTGDkyswmAwO/CwNyl4lwtOvPiCy80mSOcBjUKLSs7K5wh7EMCYRHwbusNq7PJOxn5nGhyFFSPBAwlYIhDLPOci91h1hdjSiYdYobeXS5mKQKdO/uqQKn5rSxlhEWUVbcU2ulhyou/rKzUK/I3CZAACZAACfgR8FZZVr8L/TooJzMuukieiSIxkeYqCuxvxAsoqTAF2xMI5ui1vdE0kARIQFMCBjjEyrHs4QW4ed4CPJLji1oIzwr32L/NwrTTj8eYqS9hV3iD2IsESIAEmiWQu3q1vG73hym9KmhKgBRIgARIgAQsRcCblkGNJlYjwVRjxBZJdev944seUy+3KHudb6LjqNGjWuzPDiRAAiRAAiRgJAEDHGK12LJsCRa/uQRfbKmN0Db32K+/xHfrdqDy+w0oPhjhcHYnAQsRGD1mjNRWrfokGyloRqCmxvdvUe/evTWb14wT2a2CphkZUycSIAESsCKBcKOJr7t+rjQv0iix0lJfxPKwYcPlPBSsSyCU89S6FtlLczqe7XU/aY3+BAxwiEVhRG0JNpf56lVGMROHkoClCKj5NiyluEWULdiwQWqa0iuCyrdyVHiC6uQMb4Q2vUp3+f4A0WZGzkICJEACJGBlAsGihdXvinHHjgtp3qmnndrqKDGjvm9DKs8LtiOgRjbazjgNDEpISNRgFk5BAs4hoGGVyd349ulHsaR4XwC9Kmza2eDUKvngQdxcHO7/pPtQ9u1SfP3Trw3zpSShu4baBijJUxKIOQFXvC+HWMyVsbkCO3ZslxbGymklFdBBKCkp0WFWTkkCJEACJGBVAiJa+N133vWo742SVr8rXK7OzZomosTmzJ7t6SOixMKtOCn6eo+MjEFekb9JoNUEwo1sbPUCJhjY0v+PJlCRKpCAbQho6GLqgqNGd8KCe1/C1vrgfKrW/guL1wa/1nxrBww4aTzS4prvxaskYGUCaelpfupXVFQgsOKTXweetJqAKB/vPeiI9JLgbxIgARIgAScQ8EZtqc6qgRkDmzVdRIk9/9woeCPY7/zrHXjnvfcQHx8fclyThPqjmla6DDmYF0jAwQRa+v/RwWhoOgloTkDDLZNx6DDqUtx+YSq09Vu1R9LE67Hw6qPRQXPzOSEJmJdAeXmkRSjMa4uZNAt8QA90ROqla35+nl5TNztvz576bQltdmFeJAESIAESMA0BNTpLfB+Jl27qkZycrJ4GlW+59VbZLl4sPfXkU/I8mLAsZ5lsFnmNmnOeyY4USIAEIiagFq+IeDAHkIDDCWgYISZIdsP4uf+HF7NK4cv8VYrP7rwLi7cDfc+7DbedEsEfZ+0TkTKgP/r3TEQ7h98omu8MAqKSkxq95AyrjbWyrrZOLqhWzpKNOgmVuyt1mrn5aZN7tvxHTvMz8CoJkAAJkIDVCagOL/F9VFxU7GdSOBHpmZmZmD1nDh5ftMgzVvzOys6CaA92fPLxR7L52N+OlzIFEiABbQl4K8dqOytnIwFnENDYIQbEJQ7E+Gw17LoIWx5pCETrnD7W/cWpXnMGZFpJAuES6Nu3n3SIibc9oR4yw52P/ZoSKCzcJBsFbzseao40O9pHm0iABEiABCIjEBgN/f8efUROEEnVwMtnXQ7h6PK+vJt56aV4/Y03ETi/iMb29hELnXHGGXI9CvYhkLt6NZ9V7XM7aQkJOJKAhlsmQ/HrhtEz5mH+gnmYPqZbqE5sJwESCCDAtz0BQDQ6VatqDRk6VKNZzTWN+keIuTSjNiRAAiRAArEioDq+vLnAhC6RfBeKbY8LH3hAmiCizebffBPq6nzR1+Li44sek33EdslAh5m8SIEEoiAQyWc3imU4lARIwMYEDHGIZZ5zMS6beTGmZNIhZuPPEk3TgAC/2DWA2MIUalWtzp1Z2bMFXLxMAiRAAiRgEwInnnRSUEuOPvrooO2hGkX0+vwFt8jLwrl2/KRJ8Obo/Ovtd0BN2H/xJZfKvhRIQEsCdn2OKy9jHmEtPyeciwSaI6DRlsl67N2Wi2+21XrWOqz7MEwadmRjcv1abP8mF9v2hCg92Zx2yjX/OZULFEnARgTUL/ZVK1e5HckzbWSdOUxRk9uPHjNGV6XS09N1nT+cyc2gQzh6sg8JkAAJkIC+BI47/rgmC3Tp2gUTJ01s0t5Sg3g+ERHXL734oqeriBT7w9lTmgwTUWmiQiUPEiCB8AmUlZWG35k9SYAEoiKgkUPsF/z33wtx2T3feZTpeN5zyF+Y1ZgIvxz/vudK3Ld2X1SK+s8Z1VQcTAIk4GACanJ7V7y+EWJmqKhlBh0c/HGj6SRAAiRgGgIicb5wUKnRW3+84MJW63f7X+/wjPU6xQInEs62u++9J7CZ5yRAAjoSSEjorOPsnJoE7EfAgC2T9oNGi0hALwJqxFJ1dZVeyzh2Xu92Di8AO+Y0CbTRayt/kwAJkAAJkIBwUHlziYnfIkl+NIdwir3w0ksQecLUQ8z94ccfI5zqleo4yiTQEoGNBQUtdXH09cFDhjjafhpPApES0ChCLA6dUifh3PP6e9Zvm9m9cbukOHUhNWsKzh30S6S6+fX3n9PvEk9IwJYE1IS3tjQwBkbV1fqS/g5IHWC4BpuLNzOxsOHUuSAJkAAJkICXgHBQPfPcs95TTX6LLZfip6KiAuXl5UhOTqYjTBOynCQYgerqmmDNbCMBEiCBVhHQyCHWFkdmX437s4PpkIys69xvo4JdYhsJkIAfAb238Pkt5sCTwsJN0uq+fftJ2Sihtq4hz6JR63EdEiABEiABEjCKgHC2MSLMKNpchwRIgARIQAsC3DKpBUXOQQIaEQjcwifetvLQjoBIAOw9nFDR07stxmszf5MACZAACZAACZBANASYoyoaehxLAiRgNgJ0iJntjlAfElAIiK0HPLQjUFJSIidTK3rKRhsI6rZQG5hDE0iABEiABEiABExEgDmq9LkZvXv3bvXEojI9DxIggdYRoEOsddw4igR0IxCL3Fa6GWOyifPz86RGagED2WgDQd0WagNzaAIJkAAJkAAJkAAJ2J5ASq8U29tIA0nAjAQ0yiEWhmn1tdj+n8/x8dJlWLVmJ2p+DWOM0qV91gK8et1YGKewsjhFEjCQgMhttXXLVs+KRYVFyMzMNHB1ey9VubtSGmhUvjZReYsFEiR2CiRAAiRAAiRAAiSgCYGePelE0gQkJyEBBxMwxr90YDOW3HQVbnunGPtaCbvjoD2ob+VYDiMBqxKorWUlHa3unajwqB6B+drUa1rKCQmJWk4X0VzRhN9HtBA7kwAJkAAJkAAJkIDBBJJ7Jhu8IpcjARKwGwEDtkzux7bX78JfonCG2Q067SGB5gg4Idl7c/brdU2t8OiUbakMv9fr08R5SYAESIAESIAESIAESIAErE5A/wixQ+ux+KmV+J+HVCf0P+0KXDs9C0O7H4G4COjFxffgdskIeLGrdQmoyd5FkszLZs60rjEm0jx39WqpjdiWGoujvKxc9y2wGwsKYmEa1yQBEiABEiABEiABEtCAAJ//NYDIKUggTAL6O8R+Ksb6soNudeJwxKRb8Pxjf0TvSDxhYRrCbiRAAiTQHIGamlp5OVZbCcvKSqUOegnV1dxmqxdbzksCJEACJEACJOAjQMeNj4VZJOZVM8udoB5WIaD/lsm9tY0J9Lth0rmT6QyzyieDesaMgFr9sLq6KmZ62G3hgg0bpEncSihRUCABEiABEiABEiAByxBYlpNjGV1joSjzqsWCOte0MgH9HWJHuNDZs0pbuDp1sDIr6k4ChhNgdULtkO/YsV1OlpExSMp2FlTnqp3tpG0kQAIkQAIkQAIkQAIkQAIkECkB/R1i3Ydj3KCObr2qsH5jKStFRnqH2N9xBFzxLsfZbITBW7dslcvEu+KlbDeBUYV2u6O0hwRIgARIgARIgARIgARIQA8C+jvE4jJwzqXH4wjsw6a338bXlb/oYQfnJAHbEEhLT/OzpaKiwu+cJ5ET2Fy82W9QZmam37meJ0ZXDWVUoZ53k3OTAAmQAAmQAAmQAAmQAAnYhYD+DjF3bcgeU27Gvaf1Aba+gpv+/A989cN+u/CzhR2p/fpD/bGFUTYyory83EbWxMaU2jpfQv0uXbsYqoRaNdTQhbkYCZAACZAACZAACZCAJQhEk84jPz/PEjZSSRIwIwH9q0wKq+P64vSHnwXir8P8Nx7EjHHPYWDWJIzs3xcDkuLd9SdbPtqknoDp2f3RpuWu7EEClicwIHUA1C1+ljcoxgbkrl4tNRg50rjoMLlojIT09PQYrcxlSYAESIAESIAESIAEwiUQTTqPyt2V4S7DfiRAAgEEjHGI4X/Y9dUHeGt5kVtyH/WVKMp5D0UByjR32vG8NFxIh1hziHjNRgT69u0nHWJFhUUwcoufjTAGNaV3795B241oLN1VasQyco34ePvmSpNGUiABEiABEiABEiABEiABEiCBVhAwwCFWjz3fPIyLLn0a2+pboSGHkIDDCdTW1jicQPTmr1q5Sk6S0itFykYLJSUlui6Zl8eQeV0Bc3ISIAESIAEScDgBl6uzaQjwhbFpbgUVIQHLEtDfIVa/FUseel06w+ISB+P4k47DqPSuaB8Btjap/WBAwrMINLJP1y3bt/kZI/KJ8YgtAZGIfVlOTmyVsNHqauXFnj1j5xCzEVKaQgIkQAIkQAIk4EACAzMGOtBqY01mTjBjeXM1ZxPQ3yFWW4BVeQ0JreMGTMdTr92C7B4dnE2d1pNACwTUROwiuumymTNbGMHLzRFQKy8m90xurqttrok8dDxIgARIgARIgARIgASsRYA5wax1v6ittQnoH3T1cwVKDwhILhx90XRk0Rlm7U8MtScBixGoqKjw09gpieZFHjoeJEACJEACJEACJEACJEACJEACwQno7xCT63ZC317dwqooKYdQIAGHEhg9Zoy0XN3uJxsphE2gvLzcr6/RieaN3KIpCjDwIAESIAESIAESIAEScCYB5lVz5n2n1a0noL9DrPdwjOkultmLsh+YHLz1t4ojnUpA3e7nVAbR2F1e5nOIZWVnRzNVq8YauUWTBRhadYs4iARIgARIgARIwAIENhdvtoCWVJEESMBKBPR3iLUditPOGeyODKvByjc/w1ZWmrTS54O6xoiAK94Vo5Xtt2xZWan9jArDooQE81SBCkNddiEBEiABEiABErAYAaN3MdTWNeSlthgmqksCJGBiAvo7xNy5w0ZedCXOTG6PX/Mexw0Lv8B/D9IrZuLPBFUzAYG09DQ/LQLzYPld5EmzBDYWFMjr444dJ+VYCEY+OA4eMiQWJnJNEiABEiABEiABhxDgLgbtbjS3OmrHkjORQCQE9K8y6dYmrsfJuO3xG1A7+wEsfeJy/C5nEk479XiMHZaCxK490SuxfYs6x8X3QJ8jj2AOshZJsYMdCYg8WElJSXY0TXebqqt9W7VdrthGTen94Kg6/3QHywVIgARIgARIgARIgAQMJSC2jSYlJ8HonLiGGsnFSMBAAgY4xHZgybVz8dLWA9hf38Zt2v9QVbgUr4ifCAzteN5zyF+YhXYRjGFXErAygQGpA7B1y1Yrm2AK3Zfl5Eg9BmYMlLIdBdX5Z0f7aBMJkAAJkAAJkAAJOJXAQw8+hMcXLfKY/8JLL2HipInIy8tzKg7aTQKaEDBgy+R+7N66AevWrkNRxf80UZqTkIATCPTt20+ayeqBEkVUQnJyclTjrTQ41tFwVmJFXUmABEiABEiABEjATAQC06XU1dVJZ5jQ886/3mEmdakLCViWgAERYh3QdcBQDMfBqCC1T+7E7ZJREeRgKxNg9cDW3b3At2ZO2nZq92i41n0iOIoESIAESIAESIAEzE8gMF1KcXGxn9JiFwmrbvoh4QkJtIqAAQ6xvpjyyFuY0ir1OIgEnEtgyNChULf7OZdE6y2vq62Tg8UW1FgcRkal5eczbD4W95hrkgAJkAAJkAAJkICeBHJXr24yfW5uLvgCtAkWNpBARAQM2DIZkT7sTAIk0Eigc2eXZLFq5SopUwifQGHhJtlZ3YIqGw0QjIxKq9xdaYBFXIIESIAESIAESIAEYksgKzs7tgoYvHpNTW2TFTdt3NikjQ0kQAKREaBDLDJe7E0CJGAhAurDg4i4c9Lhivc5VJ1kN20lARIgARIgARIgAbsRKNiwoYlJJSUlfm1OcxL6Gc8TEmglARM5xOpx8McNWPb2P/HM08/j9Q9XoajyQCvN4jASsD6B0WPGSCOqq6ukTCF8AurDgxpxF/4M2vcUSVGNONLS04xYhmuQAAmQAAmQAAk4iICRqSAchNVjapeuXSIyWaRWUdODRDSYnUmABDwEDMgh5iUtHF75+PTND/DZzkG44f7z0C/Oe20vtr1/D66++TVs2lvvbQQ6puF3N96Huy8Zg0TZ13eZEgk4hcCa3DVOMVVTO3fs2C7ny8gYJOVYCiIpamZmpuYqMLGq5kg5IQmQAAmQAAmQQAABI1NBBCxt+9ORIzND5g8O9XI8Z+lS23OhgSSgJwGDIsR+QdU3D2Hqcefg2r8/j0/ey8W2X7xm1WP/uqcx59pX/Z1h4vK+zfjkrpm48pkNYKyYlxd/O4UAt7xFf6dFBR7vEe+K94q2/F1b1zS3hC0NpVEkQAIkQAIkQAIk4DACoV6OB26bdBgWmksCURMwxCFW/8N7mHfJ4/jeG/114L/4YbfXI/YTvnj2dWz8tcGWuKRx+OM1N2DOnyahb0cRFlaFbx9eiDe27Y/aWE5AAlYiELjlraKiwkrqx1zXQF56RGXF3MgQCsSqomYIddhMAiRAAiRAAiRAAiSgAwG1wrjT8uXqgJNTOpCAAQ6xvdjw6ovI2SO2Qsbh8BEX4p6X5uOUrm0acP+8Am991PiHftxQXP5/T+Gu62bj2ruexZKnL0J/4RPb+y3e+HgzlM2UDrxVNNnpBMrLy52OICL7ncwrVhU1I7pB7EwCJEACJEACJEACERAoKiyKoLe1u+auXh3SgFGjR8lraoVxs+TLlcpRIAELENDfIVZfjH9/WOhxZsUNuAzPvnYnpk0YiMR2wtNVj5r/5OCrgw2kDht7Hs7P9FZGa4vECTNw2YQE98V92LQ8F6UWAEoVSUBLAoz0aT1N9aEp1lV3Ik2S2hqrm3twas18HEMCJEACJEACJEACZiJQW1tjJnVipsvJp5wSdG2Xq3PQdjaSAAmEJqC/Q6x2J4pLRAawwzHi/HMwtpOaHb8SuSvyG/ODdUTGpNHopV6OS8Kocf092tcXFmO7d5dlaHt4hQRsRUCN9FEdPLYyUidj1IemhITYPiCIJKk8SIAESIAESIAESMBuBIyqnm03bpHYE1g4KVShqIEZAyOZln1JgATcBPR3iP1cgVJPRvwEDEzt4d40qRy/FOHrL7zbwPpg0m/7+193q9e+fbuGAfsP4CD3TCrwKDqNgOrgcZrtrbF3Y0GBHDZ4yBApO0FgDgkn3GXaSAIkQAIkQAKxJyCqZ/PQl0Bg4aTMUcFftCYnJ+urCGcnARsS0N8h1gy0Q+uW4/P/NmbT75yJowcdHtD7ICp3Vwe08ZQEnEOAjo3W3+vqal9YvZlCyOtq61pvVDMjS3f5NpUzh0QzoHiJBEiABEiABEiABExIINwdDfHx8Tjr7LP8LBBpVpKSkvzaeEICJNAyAf0dYt2SkNJeKFKNoi0/KInx92HLf75pzAsWB1f28RhzuF/8mDvF2E7krmr8I29gGvo3Bou1bBZ7kIA9CKiOjVUrV9nDKIOsWJaTI1cyUwh5YeEmqZeWAstua0mTc5EACZAACZAACZCAsQQi2dFw5VWz/ZSbOm2a3zlPSIAEwiPQNrxuUfRyDUTmkMPxaf7/sO6dT7F++kAM7+B2fO1fi3eXFDQ6yI7E+MlHwZtOv2G1vdj2+qP4R94e9+lhOPLo4egVhRocSgIk4FwCrnj/f12cS4KWkwAJkAAJkAAJkAAJWJWAt1BUWnoa3npnCZblLENKSgqmTptqVZOoNwnElID+DrG4fsg+bQT+lv8Nfi14HBdP3YkLftcTFZ+8gbe37G8w/jfZ+MPxjSGe9XtQlv8VPl/yHBa9/C0qRY+4wZhy2lDor2yDOvwvCZiFwOgxY6Qq1dVVUqbQPIG8vDy/DuKhwUmH+rlxkt20lQRIgARIgARIgATsQKCmprZFMzIzMyF+eJAACbSegAE+pg4Y8Mc5mPFaPp7fuh+V+UvwWL6qcCLGzroQ412N2yUPrcNzs67C897cYuiA/n+ai8szGeGhUqPsPAJrctc4z2gNLBY5FZxwqFtEnWAvbSQBEiABEiABEiABuxIo2LDBrqbRLhIwFQH9c4gJczv9FvOefQgXj+3uX0UyrjvGXvUwHr1sKDxpxkTftl3dCQEbz8T1KxfhhVuPR2JAejHRlQcJ2J0At/q17g7nrl4tB/bt20/KsRLCTZIaK/24LgmQAAmQAAmQAAlYiYCTCk+Vl5Vb6dZQVxKwFAEDIsQEjzi0738qbn1jIi78dgVWrS/F3iNSMGzcRBzd3+XvJMORGJT1O5w7YRROOfdMHNfkuqX4UlkSiIpA4Fa/iooKVpAJg6gaZt67d+8wRujbRSRJffedd/VdRJmdZbcVGBRJgARIgARIgARsR0AtPGU74wIMKivzVRIPuMRTEiCBKAkY5BBr1DLOhX7HnOr+aU7rLphw3UOY0FwXXiMBhxIoLy+nQyyMe6+Gmaf0SgljhLW7CEeperDstkqDMgmQAAmQAAmQgJYERDqKrVu2ajkl5yIBEiCBmBAwZstkTEzjoiRgDwJOyYGl5d1SCxBkZAzScmpTziUcpTxIgARIgARIgARIwAgCZkhHYYSdRq/BokhGE+d6JADQIcZPAQmYnID60FFUWGRybc2hnlqAIN4Vbw6lGrVYtXKVrvp06dpF1/k5OQmQAAmQAAmQAAmQAAmQAAnYgYCxWybdxOr3/Igd27Zh+3/3oD4Cgod1H4ZJw44MyDcWwQTsSgI2IFBbW2MDK/Q1oa6uzm+B9PR0v3M7ntTV+mweOZLlt+14j2kTCZAACZAACZCAcwioux2cYzUtJQHjCRjmEKuv+h5vPHg/Hlv8Dcr3ReIKa4DS8bznkL8wC+2MZ8QVSSCmBEQVnWU5OTHVwUqLFxcX+6kbH2+uCDE/5TQ6KSzcpNFMnIYESIAESIAESIAESCDWBNTdDrHWheuTgJ0JGOMQ2/MtHr3ocizKr7YzS9pGAroQUKvobCwo0GUNO02qlqYeNXqUnUyjLSRAAiRAAiRAAiTgWAJqFXHHQqDhJEACmhIwwCG2H1tffQiPS2dYHDompWP40MHo161D2Ma0zezO7ZJh02JHuxKoruaWyZburVqaOiEhsaXutrs+7thxtrOJBpEACZAACZAACZiTgHgRmZlpTLoGtYq4OWlQKxIgAasR0N8hdmg93npxDX4VZOL64JTbH8QdF4zGke3irMaK+pJATAiw4kxk2Et3lcoBYrupGQ6976HeifrNwJA6kAAJkAAJkAAJmI+A+iLSfNpZSyNXvKtFhfnis0VE7EACERHQ3yH2UzHWlx10KxUH16lzceeMMehGX1hEN4mdScBLgLnEvCRC/y4pKZEX1e2mspECCZAACZAACZAACZAACZiMQFp6msk0ojokYH8Ch+lu4t5a1HjCw7ph/CnH0BmmO3AuYDcC4bwtspvN0dizY8d2OVzvyCy5kImEjIxBJtKGqpAACZAACZAACZAACZAACZCAOQno7xA7woXOnlXawtUp/Jxh5sRFrUjAeAKBb4vq6uqMV8JCK27dstXU2kYa5be5eDOeefppvPH6Gwh17/Pz86TN8S77V9WUxlIgARIgARIgARIgAZsSyMvzPd/Z1ESaRQIxJ6D/lsnuwzFuUEd8XVCF9RtLUZ+dyOT4Mb/tVMDKBIqLiw1LXmo1ThUVFX4qG5Xk1W9RDU+EPdOmnofK3ZWeWd9a/CYWv/12kxW815tcYAMJkAAJkAAJkAAJkAAJkAAJkEBQAvpHiMWl4ZSzj8Jh2IdNSz5C/v76oIqwkQRIIDSBAakDQl/kFUmgvLxcynYQbr1lgXSGCXvW5K5BS28L09PT7WA6bSABEiABEiABEiABEiABEiABXQno7xBDBwyYcRtuOiYR9VuexZzrX0PRnkO6GsXJScBuBPr27SdNEuWteQQnUFRYJC9kZWdL2YqCiA4Ltr1yWc4yP3PElkr1iI/nlkmVB2USIAESIAESIAESsAqBLl27WEVV6kkCtiCg/5ZJHEDVT/GYfNPN2LLgXrz50QKcuvINnHxWNsYOzUCfLuHlFTus+zBMGnYkt1va4mNHI6IhwPLWoenV1taEvmixK6++8mpQjQs2bPBrr62r9TvnCQmQAAmQAAmQAAmQgDUJjByZ2eSFaE0Nn/WseTeptRUIGOAQ2463rjgT963dJ3nU716LT59z/8iWloWO5z2H/IVZaNdyV/YgAdsRGDJ0aJMvR9sZqYFBGwsK5Czjjh0n5VgLrcll9snHH0m1R40e5dkuKRqCRY15O4p+PEiABEiABEiABEhATwJ8LtWTrm/uutqGQlqBL0N9PSiRAAlES8CALZPRqsjxJEACnTu7JATV6SMbKXgIVFfbI0JMbJdUq2XecuutfndYrTaZu3q1vJaQkChlCiRAAiRAAiRAAiSgBwH1uVSP+TlnA4HCwk1EQQIkoDMBAyLEXEjNmoJzB/0SlSltM7tzu2RUBEMPTu3XP/RFXjEdAbs4ffQAm5/vK089eswYPZYwZM7lXyyX64iCCoERZqw0KvFQIAESIAESIAEScCABKz/nRXO7XK7O0QznWBIggQACBjjEkpF13T3ICliYpyRAAuETcOqXfviEGnpW7q6UQ1zxvqg62WgSQSTCT0tPC6nNt9+sktcmTJjokdVtk/KiW1DzSphpm6iqI2USIAESIAESIAESIIHoCQzMGBj9JJyBBEhAEuCWSYmCAglYg0BzOaSsYYE+WgZWW2zO4aSPBuHP2lIi/OXLfRFiR48d65lY3Q6pbpNkXonwubMnCZAACZAACZAACZiZQLCXm9XVVWZWmbqRgKUJ0CFm6dtH5Z1CwMzRTma5B6qTycolq4VjT410iyRRPsPozfJppB4kQAIkQAIkQAIkoA2BNblrtJmIs5AACTQhYBGH2H78/GMN6puozwYtCGzZvg3qjxZzcg5tCQRGO6lJ1bVdybqzFRUWSeVFyWqrHrm5uVJ1kT8sKSnJcy4qOgU7duzYLpsZRi9RUCABEiABEiABEjCAQOmuUgNWceYSq1b6Umg4kwCtJgH9CRiQQ0wx4uDPKFqzBusLd2L3/l+VC8HF+jp3pbXycpSsXon8MQ8hb2EW2gXvylYScBQBJlVvertra30VJhMSrJtwdNPGjdI4b/4w0aBWdFIfPtVqlHIgBRIgARIgARIgARIwgEBJSYkBq3AJL4Hk5GSvyN8kQAIaEDDIIfYLqr55BvNuegxLt+9pldodrVswrlX2chAJBBIQ2wDVrXSB151+vrGgQCIYPGSIlM0iZGVnI5z8b+vXr5MqDxo8WMqqEOrhMz09Xe1GmQRIgARIgARIgARIwEYEvDsHbGQSTSGBmBIwZMtk/Q/vYd4lC1vtDENcF6T2SUBcTFFxcRKILQF1G2B5WXlslTHh6tXVvggxq+bSElth1TwRLW2BzMvL87sT8fHxfuc8IQESIAESIAESIAESsA6BwMrygUWjrGMJNSUBaxAwIEJsLza8+iJy9jRkAItLmogZl56JsamJ2Pf1Y7jh2Xz86pqMuQ9dgMFt9qNy1xYU536Oxe9/j8r6OBw+8hr885U/I7MT3WHW+EhRSyMIlJUxX0Mg5/x8n3OoJUdS4FiznIutsOqRmenLhdaSk8/KhQRUmymTAAmQAAmQAAmQAAkAIk+sWjSKTEiABLQnoL9DrL4Y//6wsCEhfqcTcPfixzGtd3uPJfX9t+LF5/Lxfe0POJA8DlnDDm+wcPoszJrxPObNfgBL81/AwldPwIszh6JhlPYQOCMJWIFA7969raBmzHRUt5OavSqnKACgOru80HJXr/aKCKwuGczJZ5dCAtJoCiRAAiRAAiRAAiRAAh4CgXli+fKTHwwS0J6A/lsma3eiuOSAW/PD8Jsp03FWozNMmBLXezhGHSlU2Ik1634UTY1HWySOuhgLF16A/nFV+PaRx/DhD794L/I3CTiSQEqvFGm3mi9LNjpYCAwnD6zKaTY0agEAVTc1Wf6wYcPVS0HlUPME7cxGEiABEiABEiABErAwgerqKgtrH73qavqU6GfjDCRAAoKA/g6xnytQKvxh6IoxYweioxC9R9ueSBsoct7UYn3BDvi7vNxOsQkXYMZYF7Dnayz+bEdDlJl3LH+TgIMJqPmyHIxBmq6Gk1v57Vk4CfWF0SKEXhyqA23cseM8bfwPCZAACZAACZAACdiRgJpn1Y72CZsCdxCouwfsajPtIoFYEtDfISatawtXpw7yrEFIRK/+CW6xHtXfb8KugKvuEDJMOGGwO5l+LVb/6zv8N/A6z0nAQQQyMgY5yNrITLXL1kH1QS/YFkkvFW8Ifahqk95+/E0CJEACJEACJEACJGBdAurLT+taQc1JwLwEDHSIBYNwOHr1SWq4sGMndvmHiLnb26NXaj8IN9qvRcXY0eR6sDnZRgL2JBDv8lUQXJaTY08jW2mVunUwIaFzK2eJ7bDAipGBbwiDaaduHaDDNBghtpEACZAACZAACWhNgM8cWhMNPZ/68pP5hENz4hUSaC0B/R1ivdIwyLNPshLrNpYFbHtsi+591tL99gAAQABJREFUUjwOL9RsxbaKZjxeNXVoLFTZWls5jgRIwKYE1Jxqg4cMMaWVQ4YObVav8rJyeX1A6gApNyeoEWWqw7S5MbxGAiRAAiRAAiRAAtEQ4DNHNPRaHqum//CmyRCj1HzCLc/CHiRAAuEQ0N8h1i4VI8eIiI39KPp8OYoO1Ct6xeHwlD7wpAqvL8KqvJ+Va0I8gF1btrtH8iABEgiMGKqrqyOURgJqTjWXy5wRYp07u/MhNnOUlZXKqyNGjJByKCHw/qenp4fqynYSIAESIAESIAESIAGLEFCT53vTZFhEdapJApYjoL9DDD0w9rjBnuz9v+Y/iZvufh9Few5JUHGpR2F05zj3+c/48s3PsFVxmNVXfo0XXvveE1UWN2Io0tvJYRRIwPEEiouLHc/ACyA/P88rorncW7KTCYVVK1dJrcKJcgu8//Hxvi21ciIKJEACJEACJEACJEACtiBg1pe+toBLIxxLwACHWAf0P+N8nNxVLFWNdS9di9+N/h1u/qysAfrho/D7M/u45XrsXXEP/nTJXfjnB5/js7cWYe4fr8XLW0V8WEcMOm50QyRZwyj+lwQcSUANoXYkgBBGV+6ulFdc8c1HYsmOMRSCJUiNNB+YusVy1OhRMbSGS5MACZAACZAACZAACehNwKovffXmwvlJIBoCBjjEgLgep+Ev956DZBEIJo591e7NkO0bZCRi/NXX4Xceh9kBVHz1PO6YczmuuuEhvLexxtMnLvl0zPlDhrvaJA8ScDYBNYRadYg4mcrm4s1+5qelp/mdm/FETZDq1S/SfGDqFsuEhETvNPxNAiRAAiRAAiRAAiRgYQLjjh1nYe2pOglYi4AhDjHAnTz/lHvx4Qf344JjernjveLRNVHUjmw4hMPs7ieux4Qkr5PMe8XtTEvKxvWPzMNJPdr6GimRAAlAdYg4GUdtXa0036oRdOHkA0tOTpZ2CkEtJMAHJz80PCEBEiABEiABEjCIgJr03aAlHbtM4LOgY0HQcBLQkICBXqa2SBw2FXe+cTau31aCvd3VfDfua8fMxgtLT8Hy9z/GV/m7UOd2mvUceRxOP2M8+ndqo6HJnIoErEuA5Zab3ruiwiLZqEbQyUYLCOHkA0tKSvKzZOfOnfK8Z09PaRJ5ToEESIAESIAESIAEjCDApO/aUw71XBf4LKj9ypyRBJxHwACHWD32FHyF79oMwfiMbmjn3iqZ2D/VvVGy6RHXKRXHnz/H/dP0GltIgAT8yy2rEUJOZlNb27C1WjBISDBnhcmW7k9dra9iaLj5wNQtlsk9/aPHWlqP10mABEiABEiABEiABMxJINhznVV3QZiTMLUiAR8B/bdM1m/Fkr/OxqUnH4txJ9+CD8sO+lanRAIk0GoC1dU+R1CrJ7HBQNUxGE51xliZnJExKOTShYWb5LXW5APLzMyU4ymQAAmQAAmQAAmQAAlYl0CwrZFW3QVh3btAzZ1CQP8Isd3f48s1DTl+qtukYGByO6ewpZ0koDmB5pwqmi9mkQlVx6CZy1HHu9Rt4v5w1aqTQ4YO9b/YwtmA1AEt9OBlEiABEiABEiABEiABqxAItjWSaVOscveop9UI6B8hVvMzfmwMCuswbAj6s1Sk1T4j1NdEBFSnyrKcHBNpFjtV8vPz5OJWLUetVp3s3Nkl7QlHGDFiRDjd2IcESIAESIAESIAESMAiBLKys/00HTR4sN85T0iABLQhoL9DLHkQRhzZsMz+dWtReKBeG805CwmQAAm4CVTurrQch8CKTOr56DFjIrJn7DEszR0RMHYmARIgARIgARIgAZMTCNwxcNzxx5lcY6pHAtYkoL9DrOMxuPy2M5Dsjgyr3/g8/rLw39hFp5g1Py3UOuYEAnNF1dX5krHHXLkYKLC5eLPfqoF8/C6a6CSwIlPgeShVA98Win58QApFi+0kQAIkQAIkQAIkYE0Cl8+6HN5CS7PnzEGwbZTWtIxak4C5COifQ8xdVbLXGfdjSY8huHP+o/jkmVk4+cPh+O2k3yJzWDpSe3Vx92j5OKz7MEwadiS447JlVuzhHALFxcWwihNIj7tSW9eQn1CPuY2aMxKn3oknnQR1q6xwkPEByag7xXVIgARIgARIgARIwBgC8fHxWPz228YsxlVIwMEEDHCIFeGZM87EfWv3Scz7KtYi503xI5taFDqe9xzyF2aBKflbRMUONicgyi5bcZugHrelvKxcThssekpeNLGgOvVaKql92u9Pw1uL38Sa3DUQfW+eP9/EllE1EiABEiABEiABOxJIT0+PuVlm0CHmEKgACZBA1AT03zIZtYqcgARIQCWgll1WHUJqH6fIZWWlljc1d/VqaYN6b2WjInjfFr71zhJ88eWXSEtPU65SJAESIAESIAESIAH9CYjnkVgfZtAh1gy4PgmQQPQEDIgQcyE1awrOHfRLVNq2zezO7ZJREeRgOxKwg0MomvtSusvnEBt3rLmTyycnJwc1tabGt+0z3JLaTt4mGxQiG0mABEiABEiABEiABEiABEggQgIGOMSSkXXdPciKUDF2JwESCE4gXKdJ8NH2ai0pKbGMQaFyfRVs2CBtSOmVImUKJEACJEACJEACJEACJEACJEAC+hHQaMvkLyh7ex7OcucKO+uMi/DIN76IB/1U58wk4EwCqtNkY0GBMyE0Wr1jx3Zp/+gxY6RsJSE/P0+qa1UbpAEUSIAESIAESIAESIAESIAESMAiBDSKEKvHgd3bsW7tWrfZSRi055BFzKeaJGBtAtXVNdY2IErtt27ZGuUMsRteUVEBkf9CLZAQaltl7LTkyiRAAiRAAiRAAiRAAiRAAiRgTwIaOcTsCYdWkYAZCWRkDDKjWobrJBxK6mG1vFrl5b4KmV47Qm2r9F7nbxIgARIgARIgARIwG4HNxZtZ6MdsN4X6kAAJhEWADrGwMLETCZiHQLzLV9lnWU6OeRQzWJNgDiWDVYh6uaLCIjnHqNGjpEyBBEiABEiABEiABKxCoLYu/HQ54oXmhx984DFt2vnne6LlrWIn9SQBErAfATrE7HdPaREJOIJAeZkvwsqqzqTSUl+VzGHDhjvivtFIEiABEiABEiAB5xKYM3s21uSu8QD47NNPsfjtt50Lg5aTAAnEnIBGSfVjbgcVIAHHEAjcGlhXV+cY21VDy8p8zqSEhET1kmnlrOxsP91YYdIPB09IgARIgARIgARsTGDFlyukM0yYKRxjoo0HCZAACcSKAB1isSLPdUlAIwLFxcUazWStaWpqfOH5Q4YOtZbybm3Fdkl1yysrTFruFlJhEiABEiABEiCBCAi8+86SJr1zli5t0sYGEiABEjCKAB1iRpHmOiSgIYEuXbtoOJs1p1Kjqzp3dlnOiG+/WeWnc3p6ut85T0iABEiABEiABEjATgSWL1/exJyvvmKEWBMobCABEjCMgA45xH7G53deiE2PtNHUiPZZC/DqdWOhg8Ka6snJSMAIAiNHZsroIpFLK3AbpRE6xHqN6uoqqYJVKm/27t1b6qw+FA5IHcCkspIMBRIgARIgARIgAbsREJUoK3dXNjFr65atEOk/4uN9RaOadGIDCZAACehEQAf/0kFUbd8A35+q2mjecdAe1GszFWchAVsRUHNp2cqwFozxJmQV3dTKmy0Mi+nllF4pcn31oXDChImynQIJkAAJkAAJkAAJ2I1AUZGvsrZ4ESgcYd5DpP9w4stdr/38TQIkEDsC3DIZO/ZcmQRaTUCNNGr1JBYeGFhIIDk52RLW9Ozpc4ipCh89dqx6SpkESIAESIAESIAEbEVAfYE7YsQIqIWGRF5VHiRAAiQQCwI6RIglYvw1d+Lio7QNez2s+zBul4zFJ4RrmpKAGmm0saDAlDrqqVRgIYGkpCQ9l9Ns7oEDBwada9ToUUHb2UgCJEACJEACJEACZiQgHFpqcaCWdFy10pc7dfCQIVCfX2tra1oazuskQAIkoAsBHRxiHdHzqIlur3+iLgpzUhIgAX8C1dXOfogQYfdWOdLS0yAKIqjbJcUDpVUcelbhTD1JgARIgARIgATMRWDHju1SIW/u13ffedfTJpxll82cKa9TIAESIAGjCHDLpFGkuQ4JaEjA+yCh4ZSWmip39Wqpb9++/aRsBeH008/wU3PGRRf5nfOEBEiABEiABEiABOxGQM0ZJnK/hkojYTe7aQ8JkIC5CegQIWZug6kdCdiBgJpEPpJwdTvYHmiD1fKpzb3xBo8JJSUlGHfsOEycxIT6gfeU5yRAAiRAAiRAAvYhICpMqkdgAn2nP8uqbCiTAAkYS4AOMWN5czUSIAENCKh5KNR8ahpMrfsUoqz47X+9Q/d1uAAJkAAJkAAJkAAJmIFAbV2tVEOkjhCHVQoiScUpkAAJ2JIAt0za8rbSKLsTCHyzFlh10e72q/a5XJ3VU8okQAIkQAIkQAIkQAImIqBWkRw5MtOjWWD+1Ly8PBNpTFVIgAScQoAOMafc6WbsTO3XH+pPM115yaQEAqsumlRNzdTKz/c9NA3MCF65UbPFOBEJkAAJkAAJkAAJkEBIAqrDK1gntYpkQoLvRaY3WizYGLaRAAmQgBEE6BAzgjLXIAEdCDj5IUKt0uiKd+lAl1OSAAmQAAmQAAmQAAmEQ0B1eAXrv7GgQDYPHjJEyt5oMdFQXlYu2ymQAAmQgFEENMoh1hbdT5iHZ1LF/vB26D68k1H6cx0ScCwB8RDhTUIqHiICt1HaFUxgYta09DS7mkq7SIAESIAESIAESMDyBKqra1q0oaystMU+7EACJEACWhPQyCEWhyP6j0FWf63V43wkQALhEHDSQ4SamDUcNuxDAiRAAiRAAiRAAiQQOwI7dmyXi48eM0bKQ4YOlS93ZSMFEiABEjCQgEYOMQM15lKaE9iyfZvfnCKfGA/zE+jdu7f5ldRBQzWkPis7W4cVOCUJkAAJkAAJkAAJkIBWBLZu2Rp0qs6dfWkv1G2VQTuzkQRIgAR0IMAcYjpA5ZQkYASBlF4pchknPUQ4KRpO3mAKJEACJEACJEACJGADAunp6UGtCGdbZdCBbCQBEiCBKAjQIRYFPA4lAbMQcOpDhFOj5MzyuaMeJEACJEACJEACJNAcgbw8X2Vw0S8+Pl52z8gYJGUKJEACJBALAnSIxYI61yQBDQg49SFi1cpVkp4aJScbKZAACZAACZAACZAACZiOQGCF9HiXzzmWn+/vODOd8lSIBEjAlgToELPlbaVRTiCgPkR4q006wW7VRpers3pKmQRIgARIgARIgARIwEQE1NyvokJ6qKNyd2WoS2wnARIgAd0I0CGmG1pOTAIkoAcB1fk3MGOgHktwThIgARIgARIgARIggWYIjDt2XDNXfZeay/0aKp+YbzQlEiABEtCXAB1i+vLl7CSgG4HMTP+3bHV1dbqtZdaJXfG+6kRm1ZF6kQAJkAAJkAAJkAAJAIG5X9V8YoJPRUUFMZEACZCAoQToEDMUNxcjAf0IFBcX6ze5SWbeXLzZT5O09DS/c56QAAmQAAmQAAmQAAmYh0DprlKpTEu5X8vLy2VfCiRAAiRgBAE6xIygzDVIQCcCgclJdVrGNNPW1tVKXZxmuzScAgmQAAmQAAmQAAlYhEBJSUmzmvJ5rlk8vEgCJKAzATrEdAbM6UlATwJqctKiwiI9lzLF3LmrV0s9VNtlIwUSIAESIAESIAESIAFTEujZM6WJXnyea4KEDSRAAgYSoEPMQNhcigT0JFBbW6Pn9KaYu6bGFyEWmIfCFApSCRIgARIgARIgARIgAUlgx47tUk7umSzlYIL64jPYdbaRAAmQgNYE6BDTmijnIwEDCagVftQcDQaqYOhSBRs2yPVaykMhO1IgARIgARIgARIgARLQjcCqlatCzr11y9aQ13iBBEiABGJNgA6xWN8Brk8CGhFoKUeDRsvEdBr1LWNGxqCY6sLFSYAESIAESIAESIAEwieQnNw0QowR/+HzY08SIAHtCbTVfkrOSAIkYBQB1SmkOos0Xb8qD0sWr8bu3d/g+SeWoklB7HYjcO7c3yOtfRpOmJGFfm00Xd1vMvUtY7wr3u8aT0iABEiABEiABEiABMxDoKLC/6kxKSmpiXJqxL+aGqNJRzaQAAmQgA4E6BDTASqnJAGjCKhOIdVZFP36h1CV9x6eeuxhPLl0V/PTHVyLxfev9fS5785eyL7yOlw160xkJmrrGdtcvNlPj8zMTL9znpAACZAACZAACZAACZiHQHl5eUTKqKkxIhrIziRAAiTQSgLcMtlKcBxGAmYgEOgUCnwT1yodD23Dsgdm4bSz57bsDGuywC7kPDEXfzh6ChZ8vg2HmlxvfYP6UDUgdUDrJ+JIEiABEiABEiABEiABQwl06drF0PW4GAmQAAmEQ4AOsXAosQ8JWISA6jRqlcqHtmDJldNx2WNBtkZGMqE7auz1mdMx++0tmjnFCgs3SQ369u0nZQokQAIkQAIkQAIkQALmJjByZPDI/p49U8ytOLUjARKwNQE6xGx9e2mcEwhkZWdLM4sKi6QcufAjls2/FDf+K9gWyXZImnw55j+4BLnbt2GL9yd/Cf6+4HJkJ7ULstwufD73UizI+THItcibNhYUyEFqdU3ZSIEESIAESIAESIAE/j979wIfRXX3f/zbpvuUl4oGqDWtKRBDEKqkBoqiqEgiiloRuaQiT70ggVKt1SJ3e7Nyl9qn6kNjIqit1YJcvOAFmsRLVRQhPlELAjGAqPESSMX6p01T/jO7s5PZazbJTjJJPvt6QWZnz5z5zfvMJLu/PecMAp4R2Pr6643G8o1vRk603+hGFEAAAQSSJEBCLEmQVINAWwkcd9yx9q4PHfrMXm7agjFnWOmdunXV3sjNjEnzryh6Vi/cN0eTx+Yo1VkiNUdjCuao6KVnVXhltiLTYnu1euo8ra1p+eDJffv22Xvm20SbggUEEEAAAQQQQKBDCJSVlnaI4+AgEECg/QiQEGs/bUWkCEQV6P/tb9vrN7+y2V5u0kL9G7r3549G3kFSvTS+sFjzR2Qo7hT5KRk6f0Gxluf3itxt3XNatrhUtZGvNGnNtq3b7PJ8m2hTsIAAAggggAACCLS6QNeuDV/IJrLzb59ySiLFKIMAAgi0qgAJsVblZmcIJF/A2Vvq739vTtqpXjXrC7Vif11YcMYwyfx5mp17fNj6WE+P1/C58zQ+YvhknarXrVZpC3qJlZeXh+w0/GYCIS/yBAEEEEAAAQQQQMBVgb4n9220/vf3v2+XOfbYrvayc6HrMdHXO8uwjAACCLglQELMLVnqRaCVBJy9pZy9qBLf/Ud6/qktCk+HyTdI1049J3SIZGOVpg7V9y/PiCxVt0VPP/dR5PoE1zjnRhs4aGCCW1EMAQQQQAABBBBAoK0E3nvvvUZ33SerT6NlKIAAAgi4JUBCzC1Z6kWglQTCe0vt3rW7aXuue0evvRSlZ1n/XJ2f2aVpdekoZV+Qq/SIrWr18qvvRCbdIspFX/H++w3fMPbs2TN6IdYigAACCCCAAAIItGuB6urqdh0/wSOAQPsSICHWvtqLaBGIKnBS5kn2+g8//NBeTmhh/27tOBxe0qf0oQP1rfDVCTxPOfV0nRklj3Z4x241pLUSqMhR5G9vv20/c86ZZq9kAQEEEEAAAQQQQMCzAoO++92EYmvy+9iEaqUQAgggEF2AhFh0F9Yi0K4EevXqbcf7zjs77OVEFuqqdmtXRMEUdeveNf5E+hHbWCt8J6pP3ygZsZ27VRUxLjNWJaHrnXcdSvQNVWgNPEMAAQQQQAABBBBoTYE33gidA7Y1982+EEAAgUQESIglokQZBDwuMOTMIXaE2//2N3u5+Qup6pf59WZufoy6Hx8lIdbM2sIn1M/KympmTWyGAAIIIIAAAgggkGyBvXv3RK3y4IGDUdeHr3SOdAh/Lfi8yVOCBDfkJwIIIBBHgIRYHBxeQqC9CDjvNFlRUdHGYR+lbj2SlxALn1D/mGOOaePjY/cIIIAAAggggAACQYF3K98NLjbrp3Okw+eHPo9ax6HPD0Vdz0oEEECgJQIkxFqix7YIeETAeafJlr4pafkhfaGDNRGTkjW72tde3Wxve+qpA+xlFhBAAAEEEEAAAQTah0D4TaBiRR1r6g/nF6TDc3Njbc56BBBAoEkCJMSaxEVhBLwpEP4mI3yYYdOjrtWOyo+bvpl/i8914JMoCbGvdVdqM37jOHu8DT799GbGxGYIIIAAAggggAACyRL4xje+Ebeqptwt8rjjjo1bl/nioUOf2WUSKW8XZgEBBBCII9CMj6dxauMlBBBoM4GBgwba+3Z+i2avjLHgy+ijyFm56nXwwCHVx9gm7uq697V7Z2RCzHdylnqmxN0y4kXzzZSzx1vfvn0jyrACAQQQQAABBBBAoHUF0tLS4u6wKXeLdN5B/LPPog+NdM6R6ywfNwheRAABBBoRICHWCBAvI9BeBJzDCXds35542Ol91C9iyq867X9pm95LvBa7ZP1br+mViHyYTyf07aVUu1RiC9u2brMLduveTX2y+tjPWUAAAQQQQAABBBDwhkC80Qnme7hEH397++2oRf/+94YeYl27Nt6jLGolrEQAAQTCBEiIhYHwFIH2KtCvf3879LfeetNebnTBd7JOHxolVbW9VH+pjMhs+aurryzSuLMna8mKMu0J6Ub2hSo2lmp/xE4zdMkF/dXEDmLa8tprdk3Dhg2zl1lAAAEEEEAAAQQQ8K6Ac7TCaaflxA3UeXOoWAXLSkvtl/qezIgBG4MFBBBokQAJsRbxsTEC3hFwvjlw9qxqPMITNOziwfKFF6zbqpWFL6o2fL0+0QuFD6l8f4kKb5ukvH6Xafaq8kC52pf053VVEVsoPVcjso+KXN/Imr/+9UW7xOlnDLGXWUAAAQQQQAABBBBoW4GTMk+KGUBT5vxy3hzKmfgKVv7556F3nmxs/rLgdvxEAAEEGhMgIdaYEK8j0E4Emj+xfop6jJ6qSenhKbE6Va+ar0Wln4QI1Feu1z3r9jasq6vQ6pljNGTUdC2afptWV9c1vOZf6qXxRuIsp4ndw8LnDxs0aFBYvTxFAAEEEEAAAQQQaCuBXr1627v+/FBo0mrzKw13CW9szq+ux3S164m2sGvXrpDVjc1fFlKYJwgggEAcARJicXB4CYH2JtDcifWVcpqm3DZOkdOj7tXqqZM1b1OVPcF+SuYYzVt0i8Znh755qatYq6KS8MGSPqVd8CP9cNjxTaZ09nJj/rAm87EBAggggAACCCDQagLvvLMjZF9//3vDGIPGhkSGzxG7e9fukLqcwy+d73VDCvEEAQQQaIYACbFmoLEJAl4VOPOsoXZor73a8M2cvTLmQopSc2/W7fm9IksYPcAeKbhQ5163UMVrzKGRPZQz9notenyzHp0Wfw4HX/ZU/W7JWPVuYu8wM4iSv2yyY7n00lH2MgsIIIAAAggggAACbS9w3HGxJ7d3frHpHBIZK2rnxPuHPg+906Rz+GXPnj1jVcF6BBBAoMkCJMSaTMYGCHhXoF+/fnZwFRUV9nJiC8dr+ML7tPSC9CjFjeGTJfdq4fQxGtQ7Q5n+f6do3PKdUco2rKqreEC/XrBa5bUhM+83FIiz9Pzzz9uvDj79dHuZBQQQQAABBBBAAIG2F3AOhXx///t2QOa0F85HVlaW82nUZefE+84eYWbhpgy/jFo5KxFAAIEYAiTEYsCwGoH2KODsRv5u5bsKf0PS6DGlZGrM8gdVeGV25CT7jW4crcAhvblqjsaddp4KFj+osqrod60M3/LFF17UwQMH7dXnDjvXXmYBAQQQQAABBBBAwFsC7733nh3Qhx9+aC+bC8ccc0zI82hPnL3NnD3CzLJvvFFub3LyyQ1f/torWUAAAQSaKUBCrJlwbIaAFwXMSUadd/xxdldPON6UDJ2/YK02r1umqXnReoslXJOj4H6VLv+Fpk3/gyoT6Cy2ZcsWe1szyZfIGyl7AxYQQAABBBBAAAEEXBeINTfY1tdft/c9PDfXXo634Oxt5uwRZt5h0vklKXeYjKfIawgg0FQBEmJNFaM8Ah4XOPvsc+wIt7z2mr3ctAVjTrGcMZp534uqfGOtls6bqznT8qJMum/Umpanqebry9Zq654q7Sy7R1eETbgf2HdfTfrZRGUmMJ/Y009tsMMdNz7fXmYBAQQQQAABBBBAwBsCzrnBnL24nMMnv/WtbyUUrLPn1969e+xtwu8wGT4Bv12QBQQQQKAZAl9pxjZsggACHhYw59t68IEH/BH+9a8vtjzS1ByNKcgx6inQ5FkJVJdxseY/fobGrVqmX817WG/WBbbx5U3VdTlHNVqBeWchc7hn8DFo0KDgIj8RQAABBBBAAAEEPCLQ9ZiGO447e3E5h0+emH5iQtE6e36Z7wPNnmHmCIHm9DZLaIcUQgABBAwBeohxGiDQwQRaPI9YUjyMO1HmL9D6HaUq/vkU5aadokk3jDTuT9n44/HHH7cLmcM/+SbQ5mABAQQQQAABBBDwjED4ezTzS03zUVZaasc46LvftZfjLYTXFewZ5hw++e1TTolXBa8hgAACTRYgIdZkMjZAwNsCSZlHLFmHaMxHNnzSHBVtflIzE+gdZu7WOVzyoosvSVYk1IMAAggggAACCCCQZIFu3bvZNR76/JCCSbHgykTuMBks65xvLNgzzDkUc/DgwcGi/EQAAQSSIkBCLCmMVIKAtwSc84iV/GWTt4KLE034cMlRo0bFKc1LCCCAAAIIIIAAAm0pcNpp5rQagYeZxNq5c2fwqf9GT025MZKzB9j2v/3Nn1xzDsXMGdiwL3snLCCAAAItECAh1gI8NkXAqwK5eXl2aM8//7y97PUFhkt6vYWIDwEEEEAAAQQQaBBwTpr/2WeHtGPHDvvF7OxsezmRBWcPsPXr1uuhP/7R3oy7jtsULCCAQBIFSIglEZOqEPCKgPMbNPObtRdfSMLk+q1wcH96qOGNz+SCKa2wR3aBAAIIIIAAAggg0FyBfv3725v+7e23Q6a+OP2MIfZriSw437+a5YM3iTKXLxw50vzBAwEEEEiqAAmxpHK2z8oye2fI+a99HgVROwXM7unOeRi2bNnifNmTy09teErObvHDzhvmyTgJCgEEEEAAAQQQQCAg0PfkvjaFOZl+S+4Ubr5/HX35aLs+58L3Lr3U+ZRlBBBAICkCJMSSwkglCHhPYMQFF9hBOSeqt1d6bME515mZzDNvDsADAQQQQAABBBBAwLsCOTnR5/Vq7p3C//uqqyIO9qqrr+Z9YYQKKxBAIBkCJMSSoUgdCHhQwNnDyvy2LvyuP14Kubq6WuZcEcHHmLFjg4v8RAABBBBAAAEEEPCwQLReXc29U7iZYDMTYMGHmVibPuOW4FN+IoAAAkkVICGWVE4qQ8A7AmYPK3MC0uDDOWF9cJ1Xfv7poT/ZoZi37774kovt5ywggAACCCCAAAIIeFdg9OVjIoK7cuKVEesSXfGLX/1Sz27apEfXrdW6xx5TU+5Umeg+KIcAAgiYAiTEOA9Uuacq5B8kHUdg3Ph8+2C8Omzy888/l3My/R9Om2bHzAICCCCAAAIIIICAtwXOOfeckF5dd91zT4uHOPbJ6iOztxjJMG+3PdEh0N4FSIi19xYkfgTiCIQPm/Ti3SZfeP6FkMn0mTQ1ToPyEgIIIIAAAggg4EEBs1fX/731pv9Ldnr6e7CBCAkBBKIKkBCLysJKBDqGQPiwydKSEs8d2J2/WWbHxKSpNgULCCCAAAIIIIBAuxKgN1e7ai6CRQABQ4CEGKcBAh1c4NpJ19lH+OADD8gcouiVx1Mbngq5PffE//5vr4RGHAgggAACCCCAAAIIIIAAAh1YgIRYB25cDg0BU+DcYeeGQGx4ckPI87Z84uwdNjw3V+Z8ETwQQAABBBBAAAEEEEAAAQQQcFuAhJjbwtSPQBsLmN3XnbevLi66t40jCuw+vHfY9T++wRNxEQQCCCCAAAIIIIAAAggggEDHFyAh1vHbmCNEQKNGX2YrvFv5rsxkVFs/wnuHmXcS4oEAAggggAACCCCAAAIIIIBAawiQEGsNZfaBQBsLmMkmc0hi8LFyxX3BxTb5WVxUFDJ3GL3D2qQZ2CkCCCCAAAIIIIAAAggg0GkFSIh12qbnwDubwJixY+1D3rZ1m8rLy+3nrblQXV2t3y9fbu9y9OWjRe8wm4MFBBBAAAEEEEAAAQQQQACBVhAgIdYKyOwCAS8IXHzJxTop8yQ7lJm33GIvt+bC0sWLdfDAQXuXM2bNspdZQAABBBBAAAEEEEAAAQQQQKA1BEiItYYy+0DAIwI3/3S6HUlbzCX24gsvav269XYMc+bNVVpamv2cBQQQQAABBBBAAAEEEEAAAQRaQ4CEWGsosw8EPCJg9hJzziX285/dqs8//7xVojP3c/NNP7H3ZfZWu2LCBPs5CwgggAACCCCAAAIIIIAAAgi0lgAJsdaSZj8IeETAOYG9OXTx3sJ7WyWyX/zsZyFDJZfccYeOOeaYVtk3O0EAAQQQQAABBBBAAAEEEEDAKUBCzKnBMgKdQMCcwP76H//YPtJ77rpL5lBGNx9/fuTPIUMlzf0zkb6b4tSNAAIIIIAAAggggAACCCAQT4CEWDwdXkOggwpMmTolZIJ9cyjj7l27XTlas965s2fbdQ8cNFDm/nkggAACCCCAAAIIIIAAAggg0FYCJMTaSp79ItCGAuZQRXPIYvBhDp2cM3tW0ucTM5NhV3w/P7gbdeveTQsXLWaopC3CAgIIIIAAAggggAACCCCAQFsIkBBrC3X2iYAHBMwhiwsWLbIj2bZ1m669+mpVV1fb61qyEEyGmcm24OO2X9+uPll9gk/5iQACCCCAAAIIIIAAAggggECbCJAQaxN2doqANwS+f8X3dZWRBAs+zKTY9y6+WOXl5cFVzfoZLRlmJt/Mu1zyQAABBBBAAAEEEEAAAQQQQKCtBb7S1gGwfwQQaFuBX/zql/4AHnzgAf9Ps0fXuMvHaHhurq6+5hrlDMxJaIijmQTbuXOntrz2mp544vGQO0qaSTcz+cYDAQQQQAABBBBAAAEEEEAAAS8IfOmI8fBCIMTgHYHM3hkhwVTuqQp5zpOOKWDeCdI5+b3zKM2J8I87LlXfPuUUHXtsV/9Ln312SH97+23/cllpqbN4yLKZDAsm3UJe4AkCCCCAAAIIIIAAAggggAACCQi4kacgIZYAfGcr4saJ1tkM2+vxmkMlZ95yi96tfDcph3DXPfcwTDIpklSCAAIIIIAAAggggAACCHReATfyFAyZ7LznE0eOQISAOdH+ppISPbXhKZX8ZZPWr1sfUSbeipMyT1J2drZOP2OIhp03TGlpafGK8xoCCCCAAAIIIIAAAggggAACbSJAD7E2Yff2Tt3IvHr7iIkunoDZa+zDDz7UBx+8H7XYN795or7xzW8oKysrobnGolbCSgQQQAABBBBAAAEEEEAAAQRiCLiRp6CHWAxsViOAQEDA7DVm/uOBAAIIIIAAAggggAACCCCAQEcR+HJHORCOAwEEEEAAAQQQQAABBBBAAAEEEEAAgUQESIglokQZBBBAAAEEEEAAAQQQQAABBBBAAIEOI0BCrMM0JQeCAAIIIIAAAggggAACCCCAAAIIIJCIAAmxRJQogwACCCCAAAIIIIAAAggggAACCCDQYQRIiHWYpuRAEEAAAQQQQAABBBBAAAEEEEAAAQQSESAhlogSZRBAAAEEEEAAAQQQQAABBBBAAAEEOowACbEO05QcCAIIIIAAAggggAACCCCAAAIIIIBAIgJfSaQQZTwiUFuutauf0dP3rVRpdZ0VlE9pedfq2qFDdP7Vw9U7xSOxEgYCCCCAAAIIIIAAAggggAACCCDgUYEvHTEeHo2NsGyBetVu/a2uueJuvRnMg9mvORbSRmjO8oWanNPDsbLpi5m9M0I2qtxTFfKcJwgggAACCCCAAAIIIIAAAggggEBrCbiRp2DIZGu1Xkv2U1uqRdcXxk+GmfVXb9LCactUVlvfkr2xLQIIIIAAAggggAACCCCAAAIIINChBUiIeb55P1HZgvlaHRwi6cvW+CVrtdXotWX23KqsLFXxDXlKCx5H9dP6U8lHwWf8RAABBBBAAAEEEEAAAQQQQAABBBAIEyAhFgbiuac1L+pP6/YGwvIN0Zxn/qxF+TlKDQaakqHhtxRqw4oJVlKsVqV3/kHldBILCvETAQQQQAABBBBAAAEEEEAAAQQQCBEgIRbC4b0ndf/3ql72zxvmU/rkW3RtZpcoQaYoNfcGTc+z0mT7t2rrvniTjUWpglUIIIAAAggggAACCCCAAAIIIIBAJxEgIebphv5Cb215Q4f9MfbQmYMzFfsmkido2MWD5fOX3aVXt33i6SMjOAQQQAABBBBAAAEEEEAAAQQQQKCtBEiItZV8QvutVdXOj62S31KfjKPjbGX0EjspUyf4S/xDO3d/KEZNxuHiJQQQQAABBBBAAAEEEEAAAQQQ6LQCJMQ83fSf68Angf5h6pKhzPRA/69YIaekdlc3/4t1+rTmM/0nVkHWI4AAAggggAACCCCAAAIIIIAAAp1YgISYlxu//pAOHLD6eX2tu1Iba630PupnTTF2eMduve/lYyM2BBBAAAEEEEAAAQQQQAABBBBAoI0EGkuxtFFY7NYv8J/PdOBTa3L87kbvr9gTiAGGAAIIIIAAAggggAACCCCAAAIIIJCgAAmxBKEohgACCCCAAAIIIIAAAggggAACCCDQMQRIiHWMduQoEEAAAQQQQAABBBBAAAEEEEAAAQQSFPhKguUo1hYCXz5W3b9mTKS/3xg2eeCADhrTifVu4bDJzN4ZTT6S5mzT5J2wAQIIIIAAAggggAACCCCAAAIIINBKAvQQayXoZu0mpau6d7cyYJ8eUG1jt43cv1s7gjel7NdHJzZrp2yEAAIIIIAAAggggAACCCCAAAIIdGwBEmKebt9j1P1467aR9Qd18DPrjpMxYq6vNXqR+V/z6Ws9jhWNGwOK1QgggAACCCCAAAIIIIAAAggg0KkFyJl4uvlTldH364EI6/Zq975/xom2XrXvVuojf4mj1bfPN9TC0ZVx9sVLCCCAAAIIIIAAAggggAACCCCAQPsVYA4xT7fdUTp18GnqsnynDqtKGzZu1/ScQTESXR/p+ae2yJhtzHh8XVknpUY9sso9VVHXO1eGzxmWyDbO7Vt72evxEl9yzgivO5pH2R5ibA9xtgdHYuS6To5Acmppb+ejV99XOB29GKMzPvPM8WKMZlxej9Pr8bUHQ2I0BZLzcJ6PXr2mzSP1epzO+Mx4vWbp9fhMM/Ph9TjD4wtE3bL/6SHWMj/Xt/Z95wydZcyrLyPVtb/4Dq2stCYJC9mz0Tus9G4tK6kNrE3P1Yjso0JK8AQBBBBAAAEEEEAAAQQQQAABBBBAICBAQszrZ0KPc3Tl5b0CUdZt1sKR39fsojLtCU4nVl+lsjum6pJJD6vaX6qrcq6+TNmMl/R6yxIfAggggAACCCCAAAIIIIAAAgi0kQBDJtsIPvHdHq9zp05UzroFKjfHQ9ZVaPX8Sca/GDWkfU/Xj8+KMawyxjasRgABBBBAAAEEEEAAAQQQQAABBDqRAD3E2kFjp2T+QHf87zUa4B86GSdgIxm29OGfa3gq3cPiKPESAggggAACCCCAAAIIIIAAAgh0cgF6iLWLE6CLeo/4hdZvGaW1q5/R0/etVGl1YPp8M3xfdr5uHj1SF149XL3JhbWLFiVIBBBAAAEEEEAAAQQQQAABBBBoOwESYm1n3/Q9p+ZoTIH5b07Tt2ULBBBAAAEEEEAAAQQQQAABBBBAAAG/AAkxToR2L+C12+qGgxJfuEjznnvdsXlH1TZbed3S6/GZrUaMbXPutsVeaevkqOOYHMf2UIvX29rr8ZltTIzt4UwnRgQQ6AgCJMQ6QityDAgggAACCCCAAAIIIIAAAu1KoD0kP01Qr8dJfO3qtG92sG60M5PqN7s52BABBBBAAAEEEEAAAQQQQAABBBBAoD0KfOmI8WiPgRMzAggggAACCCCAAAIIIIAAAggggAACzRGgh1hz1NgGAQQQQAABBBBAAAEEEEAAAQQQQKDdCpAQa7dNR+AIIIAAAggggAACCCCAAAIIIIAAAs0RICHWHDW2QQABBBBAAAEEEEAAAQQQQAABBBBotwIkxNpt0xE4AggggAACCCCAAAIIIIAAAggggEBzBEiINUeNbRBAAAEEEEAAAQQQQAABBBBAAAEE2q0ACbF223QEjgACCCCAAAIIIIAAAggggAACCCDQHAESYs1RYxsEEEAAAQQQQAABBBBAAAEEEEAAgXYrQEKs3TYdgSOAAAIIIIAAAggggAACCCCAAAIINEfgK83ZiG3aQKB+h4rH52vhtkNS9lyVPF6g3nHDqFdt+RN6dOOTWrm8RNV22XTlTvtvnTX4Al2Vm6EUe32shRqVr1mrTU89qMKS/Q2F0vI09brzNPj8cRqe0aVhfayl2nKtXf2Mnr5vpUqr66xSPqXlXatrhw7R+VcPV+/Gg4lVO+sRiCFgnr+P6M8PFGp1hXHt+B/WeXfxSI0bm6PUGFuGrE7K+euxazLkAHnSqQXqq1T2wJN6dn2R4zoxRHzZGj99tE4/Y5TG5PRonIjrpHEjSnRsAfu92tEav+JpLcpt5C9MXZlmD5ik1YcTYUmLX6enrr9EjocyCLRQoKnXm393Xvpck6z3hS10ZPN2LFCrspkXafKqhk/68Q6mS/4KvbFkuHxRC3np2ogaoGsrv3TEeLhWOxUnSeCwKouu1SXzN8ufSmo0IVajrYsLNHF5eaB81CjMpMAM3b1sknJSY2Sial/RkqumqtBOJESryEiwzfutlhYMipFYMH7Zb/2trrnibr0ZzINFqyZthOYsX6jJiXzoirY96xAIE6iveko//8lsPRLn/PVlX6O7/2eWzo+Z1E3W+eulazIMiqedWOCw9mxarJt+dH/838/qqgFXLtJvf31xjC8uuE468UnEodsCzt/zjSSvgttUFWn08AV6M/g87s9YdXrs+ot7DLyIQLIEmnG9eepzjTP+WCYJfFaLtSnrO4nAThWPukwLKxL6VkUxE2KeujZav+kYMtn65k3eY33lHzRriZUMa3Rr441R6TLdGDcZZlZSp+qSpbphQalqo9b5icoWzGkkGWZuuF+l86drUeknUWsxgtGi6wsb+bBlbFq9SQunLVNZbX30eliLQFMEajdp3oSb4ibDzOrqKu7X1Am3xT7vknL+euyabIojZTuwgHle3qaJBY0lw0yCQ3rzTzdp4pxN0f9ecJ104POEQ0tMwEgur/llAu+9nLXVq2bbFu1wrmrOsqeuv+YcANsg0FSB5lxvXvpck6z3hU11o3yHE6h5S69uTywZFvvYvXRtxI7SzVdIiLmpm4y6je7AK2fcpfJ4vauc+zHfGM191B4i6cueoEXrXlflnir/v51l9+r6vHRrCyMptm61SmvCk1DmL+o7deuqvVY5o3dA/kI9+sZuq57tKllxo3LTgh0u92r9Qy+qxhmHf9m8wOZrdXCIpDn8ZslabbViqawsVfENeUoLblf9tP5U8lHwGT8RaKbAFyovvKPhvDOH9y5znHd7Xtejy37YcP5WP6pboyaGk3T+euqabCYpm3U8gfo3dO/PnX8r8jVnRal2Bn8/79mtreuWaarz78Wq+VG+/OA66XgnB0fUNAGzp8eVGjn9Sfu9V2Lb/1P7du+1evIP1pyynfZ7teB7ttCfr0QZguml6y+xo6YUAi0TaM715rHPNUl5X9gyRbbuGAL1+3Zppz9H0EUD5j3byN+QKr0dMVzSY9dGWzWLOWSSh1cF/t+R3fdeceTkXr2PnOT8d+m9R6qihvzvI58+WmCXP/nye4/s/ne0gh8fKZ0xzKoz68i5i14/Elrs/SNrJp1mvT7gyNh7t4e9btV5cOORWWdkWeUuOLJ42z9Cd/bpmiOT+1ix97niSNHu/xf6uv/Zv48cLJlz5Kzg8Q1ddGRbaDBRtmEVAnEEEjrvjhz59+57j4wNnp8nzzxS+q+wOhOqp7Hz12PXZNgh8rTzCvyrZOaRb1u/d2P/rTB8/r37yJqCs+2/QSdPWnPkUycb14lTg+VOJvDvdzceWTap4fpoeK825MiskoONaDjeazX3vY+nrr9GDpeXEWihQPOvN8e11qutP9ck631hCzHZvAMIOM+lKJ/DEzpCL10bCQXsSiF6iLVVJrLR/ZoZ29t0lX/esK7KmfFTXd7o3PWHVPHqm9a3jX016WcTlRl1erDjNXyW0cPL38GrTvtf2qb3nPHUvaPXXrIGUqZP1LxJ/aJPvp+aqxkzzrMm5tunl193TLpv1Ff3f6/qZX/W2qf0ybfo2sxoB5Ci1NwbND3Pmnh2/1Zt3Zdodzhn0CwjEBBI7LyTUjKHaWR/65w8bPSg3B963iVWT2Pnr7euSc4RBAICX+itLW8o0Mk+TaNvGB/jb4VROiVTYxbebP29MH6vv7NL+xydirlOOKc6pYA5gf3iyTp3+BTdY91wyOyRX5B3fOIcjvdavpOz1DPq+7X41Xnq+osfKq8i0HyBll5vjmtNbf65JknvC5uvyZYdRsBxLvl6qU/Przb9yDx1bTQ9/GRtQUIsWZLJrsfuTmtMqJi/TMVTTlWjtwStr9SWl62Bi11O0+BTj4odVY8huuhcKwm1fYu2OYZN1r/1ml6xhiN3Oet0nRrzTVqKepw3Uuf4E2uHtWPzW45hk84PXD105uDM6Ek1f4QnaNjFg63E2i69ui3GfGSxj4ZXELAFfLmL9bZ/2NdOPT9rUJzzzt7EuJteqrof6/x1mKTz11PXpON4WezkAkcpZ1awa320YVhhPKm9lHWCNUT+0wOq/U/wda6ToAQ/O5nAwdf1oH0Hb+PmQjfcq2fWzdQZPWK+YYoE2r9bO/zvtbqo35BTlcB9XMPq8Nb1FxYcTxFInkALrzdPfa5J0vvC5OFSU/sV+FiVO6wOLP0Ha2BT/v5YB+2pa6MNG8L5CbANw2DXoQKOOSHSxun2ubkx7uAYupVq92rXR1Yvl759lBGc4iusWOBpqjL6fj2wWLdXu/f90ypl9Ex7t1KBmby6KCvrxBi3ZrWKOz4ohfYcqFXVzo+tQt9Sn4yjreVoP4xeNidl6gT/S//Qzt0fytEBIdoGrEOghQLGeb71CT1pTUTpO3ekhoX8IUnS+eupa7KFZGzeeQX+85kOfGr9bflad6Xa7xy4TjrvScGRG9+kGHfrvlHFZZtUdMuIGHdgjeXknFC/p876bg/tKf2jCmdepn69M5Tp/5et0TPv0dryyBlaA7V66fqLdZysRyBZAs293jz2uSYp7wuTZUo97VrAnlDfGIk1dKBOrCrTyt/P0uis4N+QDPUbNUuFa8qj3xDJ+LTNZ/7AGdBop6N2faK0y+CNk9Oe0L6Xxi+4WcNTjW8cQ0dzRT+yz2r0iVWuS78+OjF6KWutT926H2ctGx92Dv7LWDZ7lP1Hhw7UWrtLVb9MK2lmlYz4kdJV3bsb8ZnDzYI9B/xfkH6uA58Eu5kZF2Z63OycUlK7q5tR+X5jz5/WfGZEYYzUidgZKxBouUC98QfjwVUPqTj47b5viG6Ze3HYt/NJOn89dU223I4aOqeA8xvE0KFdXCed84zgqNXtHP2i7AfKyYg2FUQiPo4J9X1d9PEfJ2nkmoqwt3rG3V1X3aEZqwr14JWL9NtfXxyWdPPS9ZfIMVMGgWYKtOh689jnmqS8L2ymI5t1KAHnhPrdPr5f4y94Um+G5QvqKlZpyfRVuvOBa3T3/8zS+SF/szx2bbRh69jf87ZhDOzaKRAyVHKeZucmPh9Ffe0BHfTX5dPXehyr+I3r04mZGQq8lavVjspgb646HTzwdyuiY9W92385o4uy/HVl9rOGXjrnYao/pAMHrH5eIT0KolRhrkrvo37B6Zx27Nb7MYqxGoHmCexU8aj+/m/d+w6fpNutZJgv+xoVblypyeHz2yXp/PXUNdk8OLbq9AIf6LG7HzG+rDAfxtyUN4xsSB5znXT6s6PTAqT2a0EyzFRz9O6qq9C6iGSYU9ZIjP3pJk2csyn0W35PXX/OeFlGIMkCLbrevPW5JjnvC5PsS3XtUMDZu8v4G7EmMhnmPKi6ivs1dcJtKqt1jsHy1rXhjLe1l+PnTFo7ms6+v/odKp40XaurjfRuU4ZKWm7/OXhAn/qXU4zeX12b2cPqX6o1emgFHsepe2r8nl1WwcgfziE23Y3eX3T3ijRiTesJOD842Hv1qcfx/6X3qqIM0U3S+eupa9I+bhYQSFTgsPasWahlJYE5Knx5U3VdjmNuSq6TRCEph0CogHMiY/OVtDxdv6JUO/3zXxo3eTF/vrFWS2fna4D/bVidqlfN1Iw1HzTU46nrryEslhDwloC3Ptck532ht4SJpi0EHBPq+3cfmMuypNL6++H/W/K6Hl12i8Zndw0EWP2wpk1/zDHft7eujbZQDO6ThFhQos1/Hlblil/pjm2HjGkpcjT1numBoZJtHhcBINABBPwfHE5Q7rTZmjMtT2n+QzI+YJTcq9snXaaxc5/SHueXJh3gkDkEBFomYCbDZmji9CdVbVaUNkHLl13W0DusZZWzNQKdW8CeUN9gMK6t4mcK9dPcjNAvMlNzNOaHC3R/4QTrb1atSu/8g8r5W9W5zx2OHgEEEJBjQn0ZUyytWBtlLsseyhl7vRY9uEzj0wIdXOpKCnVf+Rf4hQmQEAsDaaun9ZV/0Kwlm435I7oqZ+YCTR/U9PsNtVXs7BcBzwv4hmvRjhdVNGuqJs8q1kt7tqtkxY3K9f+BMIejzNYtK3ZwMwfPNyQBto5AWDKML2lah529dB6BjAKtD/YG27wgzhegxk2Hcm/Q9Dxraor9pdpUwYeZznOicKQIIIBANIG+mvz49kBv4j3PaVG8KZZSczVjxnnWTfKqtGHjdj7vhJGSEAsDaZOnxlDJlTPuUrkxUtI38MdaPKlf6LeECQb15W7d9TV/2XpjHrBDzTzZ/0upxvxjgcffdaA2bHa+BGPRl435x75mDbc8YMxtxjeaicpRrlUEuqh37s36/UMzlOM/TQ+p/IHHVBE8T5N0/nrqmmwVV3bS/gWiJMMeKdLMaF/ScJ20/+bmCNqBgOOu4AreBMkI21PXXztgJMROKuCtzzXJeV/YSZuSw26mgPHFykmZOsG/dcPN6yRvXRvNPLikbEZCLCmMLamkRlvvmGsNlTTudrf0B8ps5nxbwTs1mrekDN6pMXZkdXrfGGccuA+k826S0e4+GbsWObtsdnHcTTJ490lz0+DdJ+NV4xg+0PgdMuNVxGsIJC6QknmJrjw3yjfvSTp/PXVNJs5CyU4rYPw9WnylRtrDJEdozqoYyTDTiOuk054pHHhrCjjflzluguSp6681PdgXAk0RcF4/joRyzCocQ9Fc+FyTnPeFMYPnBQSiCjScd9Jh++Z13ro2ogbeSitJiLUSdMzdGHcXWr2yPHCr7brNWpgXuBNeZm8jueT8lzVJqwPZK6ligfKCr/WbpbJgJ65je+h4q1NWfc1B43vEeI9Yd5b4srp2T7W6VR5WzcFGuuY7JysPuZvkMep+vHXbyPqDOvhZsOtN9JiadteV6HWwFoGmCxyvgUOyrM2cb5SSdP566ppsug5bdB6B+qpN+s11o5W/PPD3yH8H1od/p8k58Ybvc510njOEI/WGQBcd3/0YKxQvXX/e0CEKBCIFPPa5JinvCyOPkjUIJCrgO76HMUGT+fDYtZHoAbhQjoSYC6htVmVqL2WdEMiI1b2zS/vi5qAct/z29VKfnl+1wnZ2q/yHdu6Ocgc+5wVCdn0AAEAASURBVAHW7tWujwIZOd/JWepp925zdPGv26vd+/7p3Cps2Xnr2KPVt883mjVkNKxSniKQgIAzMewsnqTz11PXpPP4WEYgKGD8/t26TGMvmKJ7SvYbK33GDe/m6uEHb9X5GdaXGsGiET+5TiJIWIFA0gWcf6e+rqyTrF7N8tL1l/SDpkIEkiTgsc81SXlfmCQaquk0As6OJyf07WX89TAfHrs22rA1SIi1IX7Sd52SqcFnWd/mNzbxas1mPf1CbSCEEzKVkWpnspRy6uk60/85qE77n/hLw7xKEQHXq+a5Z/SiPx/mU8MFZhY8SqcOPk2Bj1ONTeD3kZ5/akugl5ycb/YidsgKBBoR+ELliy+0elfmqMB5i/poW9Zv16YnqgKv+Abo9O9YtyZO1vnrqWsyGgDrOreAOV/YTbpk7N160/97vKsGTHtAG+4rUI7jb0JsoyT9nuc6iU3MKx1QoCV/p5xfYHrr+uuADcUhdRABT32uSdLfuw7SNBxGMwXqyxdrmDVarN91a1UTt54vVLGxVOZXnlJoxxNPXRtxj8HdF0mIuevbeO3+u99VWXeJiPNz1wqND35Znz1XJcG7E+1YrOHWMEkZHSCzzxhgDXfcqRW/fkiVUXuJfaKyxb9TqZXISr/0fGU35MOMDgIn6/ShwXmVHtL8WHffqy3V0qXPWYmsDF1yQf+Qnl2+75yhs/yxGYm14ju0sjI45tPJYvROKL1by0qs5Fx6rkZkH+UswDICTRD4qnr26WVdA7V68aENMa4Bs8rDqlxxh1bst3o4njtSw3o0XAjJOX+9dU02AZKiHV7A7Bl2j26a/aSq/cearhHL1mnNrDOtbw4TA+A6ScyJUgg0CDT375RP6ZOn6jKv/p1qOECWEPCWgKc+1yTpfaG3hImmlQVSemapr/X5v+6F1VoX9TN2IKj6SuOzfPHOwJP0K/Sj0d9siNZT10ZDWK29REKstcVd3V+KeuSN1+g0a9jktgW65PJZKi6tsu84GZgnZowmr9obiMQ3SD8Yd0pIIkvGfShyJ16kNH8J4+578/M1dmaRyqqCCS2jV0HpnSoYeb1WV1vJhIHjNDY8kdXjHF15ea/Afsz50UZ+X7OLyrQnmKSrr1LZHVN1yaSHrQ9kXZVz9WWhyTlXvai84wkY18DoqZqUHrwGluqqKYu1tjz0u5P6qjKtXHyDrpq/2Uro9tLoiecoZLakpJy/HrsmO16Dc0TNFTC+0Fh0faHVM8xMht2ve8Zmhv0tSKByrpMEkCiCgFOgmX+nfOfpJ5NPC71GPXX9OY+RZQS8JOClzzXJel/oJV9iaXWBHiP1o8l9A7s1P2NPvEFL1pTL6l4SWG9+zl6xUD+cuFTl/o/rqcq9+QfKafju3yjnpWuj1RXtHX7piPGwn7HgXYG6Ms0eYE2sb/YQe7xAvaNGa/R6KbpWl9gf9KMWslYac8Xk36MNS0ZE9gio36Hi8flauO1QvAqs13pp/IrVWpR7fETZ+soifX/kAutCjHg5dEXaBBU/82sNT2ioTuimPEOgQcDs+fJbXXNFcBhYwyvRl8xhYoW6P0rPmOScv966JqMbsLZzCTTlnAyXSTN+3z9t/L63ehEbL3OdhBvxvHMK1Kps5kXGF45mn8vI6yTUpKl/p9x+n9WU3wlx3juGHiTPEHBRoCnXmxGGpz7XcL25eGJ0nqprX9GSq6aqsCKRz+pxfm976tpom+ajh1jbuLu41y7KnLRAd1+ZbQ0bi7Ur48K44HY9tDBKMszcJKWfrl22SFdkB+dUilWP2bPgPs2PkgzzV5P5A93xv9dogNWtM1YtSvuelj78c5JhMYF4IXEBY5LIQTfp/lVzlWv1loy5rS9bVxQ9FnOYWEpSzl9vXZMxLXihEwnsU9kTb1i9I1t+2FwnLTekhs4m0NS/Uytdfp+VpL9Tna0ZOd72I+CpzzVcb+3nxPFwpKlnauaDKzUnL72RII0v/q/8LZ/54yjRQywOjqdeSriHWDBq49vH8if06MYntXJ5iTUk0XzNuCjyC3TZyO/pqtyM0K73wU1DftaofM1abXrqQRX670BmvWgkEsZPH68LLxyn4Y3eiczYprZca1c/o6fvW6lSa5ilWZMvO183jx6pC68ert4hXTit/fADgZYImN2FH9ioLS/9MfT8TcvT1Ou+pxHjL01s8vCknL8euyZb4sq27VvA+fekyUcSp+cL10mTNdmgIwk0scdK8ND9f6ee1LPri7Ta+U1/u/47FTw4fiLglkAzrzdj+nHvfK5J1vtCt4ypt30ImFMZPapnn1mtO1dVOL7sTFfutKt00QVjNCYnZFKYGIflpWsjRogurSYh5hIs1SKAAAIIIIAAAggggAACCCCAAAIIeFOAIZPebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAIIIIAAAggg4E0BEmLebBeiQgABBBBAAAEEEEAAAQQQQAABBBBwSYCEmEuwVIsAAggggAACCCCAAAJuCnyispnnKfPsxSqvd3M/1I0AAggg0BEFSIh1xFblmBBAAAEEEEAAAQQQ6NACh7VnzW26ddXeDn2UHBwCCCCAgHsCJMTcs6VmBBBAAAEEEEAAAQQQSLpAjcqLbtTE6U+qOul1UyECCCCAQGcRICHWWVqa40QAAQQQQAABBBBAoF0L1Ku2fK2WXDda4+Y/Jw0bpgG+dn1ABI8AAggg0IYCJMTaEJ9dI4AAAggggAACCCCAQKIC/1TVxkIVvtBd45f8WRt+M0rHJ7op5RBAAAEEEAgTICEWBsJTBBBAAAEEEEhU4AuVL75Qmb0zjH85KljzQWIb1m/VkrP7WtuZ2+aruKougW2d++uv0UU7E9iGIu1XYKeKR/W3zpNEz5H2e7QhkdesVUGWeW1cqCXlX4S81LmffFUZF/xMj25Zq0X5OUrt3BgcPQIIIIBACwVIiLUQkM0RQAABBBDovAJHKfuCXKX7AWr14lObVZMARn3FX7RhvzMBtkuvbvskgS1rVbXzY6tcT5313cCeE9iQIgi0I4F61Tz3jF40LxFfL/Xp+dV2FLvboaYoNeds5aSmuL0j6kcAAQQQ6AQCJMQ6QSNziAgggAACCLglkHLq6TqzS6D2und2aV99Y3uq03uvb9X+kGIJJtNqNuvpF2oDW6bnakT2USG18ASBjiFwSBWvvil/PuzckRrWg+RPx2hXjgIBBBBAwGsCJMS81iLEgwACCCCAQHsS8J2s04daA5f2l2pTRWPDuz7Rts27AkeYfrZyTwlk0+peelUVzk5jUQzq9+3STquM7+Qs9SRPEEWJVe1eoL5SW142+1qm6pyLh6hHuz+gGAdgDws1h4Y28u/sxSpvNNkeYz+sRgABBBBAIIbAV2KsZzUCCCCAAAIIIJCAwAkadvFg+Uo2GT1aPtaud40eXDlxem45enl1OStfBT0+Vunbxlxgh9/Qlre+0PCY2zp7lnXwREEC6hTpuAINQ4q/rqyTOvAsWT3GqGjXmI7bkBwZAggggIDnBegh5vkmIkAEEEAAAQS8LJCiHgMHq58/xMaHPjb08krVWWcM0iB7DrIqbdi4XbE7gTh6lilLZwzk3nJePiuIrbkCjsQvw4Kbi8h2CCCAAAIIJCRAQiwhJgohgAACCCCAQEyBngN1VrrP/3L8ecS+UMXGUmv+sEBSK6Vnlvr6N63T/pe26b1YO6l7R6+9FJw/zEik9QzsL1Zx1iPQPgWCiV+f0i89X9kMC26fzUjUCCCAAALtQoCEWLtoJoJEAAEEEEDAwwIp/TXi0oxAgPu3auu+WJOB7dfWl/YFyqVbSa0eQ3TRudawsO1btK0meh+x+rde0yuHzU1jJQpqVL5mpYoXT9bQiPmIsjV65l0qXlGmPRHVG3f0WzNF/axt+l23NoE7ZX6gtdflWPMe5ahgzQeBYwr/v7Zca4vu0uxR2SFzJPUbNUuFUWNxVrBTxaP6W9vlq7jKNDWPsUhLrjsnsr415bLShc5KjOVo9YQVsZ/WaU9Rvl33KTPL/BO72y9HrateteXrVTjzMtsws/c5Kli8VuW1Ydimx+9naXRWw3xRfouYsTfsuWHpsPaUFoWaZl2m2b//o8qq/CdIQ9F4S81uG4fnqCLtMfo01pY/EhKPeUzFpVVxejvGCcweUtxDZw7OVIvzYf7jXKiCIX3tds3s3VdDr1uo4pjujmPsHTz3Wrud4xjxEgIIIIAAAkkSICGWJEiqQQABBBBAoPMKHKVTB5+mwPT4u/Tqtk+iU9S8pVe3m0kLZ1LreA0ckhUoX7dFTz/3UZRtHcPIjCnGQxMF5gf1IuMD/5kaN/02LVxeouqIGg7pzVW/0cLbJilv6I+1NiRxYgz5PG+kzrE6nNW98Iyej5GUs6u1kxbGGt9gXXTeCfZLgQUjabPpVxo9eIxmzP+NVlccCnm9rmKVlvhjmaLicnPy9AQeta9oyajhxjEuUGFJ6D06/fVNH6Mho5Zpa3gSKoGqm1/ESNAVTdMll9+sJasqHMmz/SpdPl3jRt5kWVttNPL7mrFold505EsDsX9fl0xZFSVZGRbZfyq1dsoI5U1aEGpaV6HVi36mycNHqKBoa4zEYLCu5LZNfeUKTc6fExJPXcVGvXrwq81IZhnJ2eee0Yumj2+ATv9O12DQzfhpts0UDT3NPAfvVWm1A91oqeqSe7Uw4XOmldu5GUfLJggggAACCDRHgIRYc9TYBgEEEEAAAQRCBHzfOUNn+ZNKtXr51XccyZFgMceHfR2tvn2+YSUMfPrWdwcp3V8s1rbBYWRGobBEQSAhsSDsA39wn1F+Vj+pGT/4n9A71vU4R1de3itQOGZSLliX8ziMcM4dqWE9nP14Dquy6FqNLLg/JPET3DrkZ/UmLcwv0JKtjSXFdmnltKkqDEushdRlPKmruFsTpz+WQA+38C2b8/wL7V71c90wf1OUBKRVn2E99/an9Ik/aRSvjYwEzcbbdcuKHXF6VX2olxbcorkbQ5OBoZEbibj512pyUax6ktw29S9p0dVLVe7MNZkBRU2ShkYa/dk/tW/3Xv+1E3leRd8i+toabV1coAnx2sba0H/OTFqhyrDOfA31tnY7N+yZJQQQQAABBNwWICHmtjD1I4AAAggg0BkEHEMfD7/8mt6K+IB9SBWvvhlIlIUlDFKyz9cl1hxkUbd1zB8Wmij4QI8t+F87IeHLztfMZWu1dU+VKh3/dpat0K3T8pQWbIf9pdpU8UXwmfHzeJ074SI7KffiU5vjJJU+0vNPbbESfuF3uzR6QpXepqvmb7Ze9yktb4puXVGqnXY821Wy4leamhdIAaquXIXXL1NZ3J5dtaquNnvWpSt32jI9+sZu6/jMum5UblrDfGp1JYW6r9x5bI7DTOri21q93EiG+bI1ft4KlVRa5pWlKrwy2+gDGHjUlfxaoyf+xmgj0+KHWrru9RixH1L5A4+pIuK8CQa9Xy+UvG24dtWA/LkqLtvuqGeuxmcHe1MZ9Sz5lVZWhg+fdKFt3n5epfvr5Mu+RoXOeFb9VLkhSdLgMTTys367Nj1RZRQKP68a2S7kZfM4l+nG5eXWOWjk54zrYo7zHHxjrRblO9po212aFTMZ2drtHHIwjT/x36nSOPf+Oks5zrx041tSAgEEEEAAAZEQ4yRAAAEEEEAAgSQIOIY+RptHrL5SW162ekL1H6yBzoRByjfU5+SjAzFEJKsk5/xhJ/TtZaQLrIdz6GLaBC1/cIGmjs1peN0qlpIxXNfOWqjb861eYPpYu94NnXHLmZSLO2zSuc/0K/Sj0d8MRmMEukuP3v2k1WOqq3LmPa4X7puja3MzHMPnuqh37lWaed96rZqWE0gcVT+qXxa+Ead3lLELX46mrlmvolljlJMa/ORv1nWzijYsUm4wAxXl2BoCTPKSGdMjK7SoYLh6B0NKydD5C5ZrQV6wlcxkXr3S8u/RhvtmaUxODyuIQOy/X36dlYg0Vn9Uqaq4icF0jVi2TmuWFGh4RmCAroyBur1zC7TowUJNDSbF6rZqZeGLoUMn3Wob3wgtWHmrznfGk9Mv4hxMRL6+4i/aYCTYpK8r66SgXyJbOst8pNKHnrZ77fmyb9BDxnUx2XkOpuZo/JI/a8O8IVbispFkZKu3s/N4WEYAAQQQQMA9ARJi7tlSMwIIIIAAAp1IwDn0MXIesYYP+8b8YUMH6lshMido2MWDrQ/n4ckq5/xhGbrkgv4NyaVg7xCz99XmBRpuJ4pCKreepCoj6+vW8mF9cuDz0ELOGwPUPaf/KY6WoDKG3K1dHZjjyYg2/C6A9RWP6Q/bAvOF+fJ+qcKCfg2xhu7NeNZDg26Zp0n+nnHGHTaf+Euc3lFG76rLp2nKoGAyKawyR+88KcqxhRVPztN4MTmSo+bOfOdp+qzcqEkiZyJSdbU68Nl/Yobny7tZ88fGmGg+9UxNv/PHyvEnBo0hmOtWq9QxF5xbbdPl8gm61JncjRl9Yy8YPbverZR/Br30XI3IPqqxDaK/7kzYqq8m/WqaBkW9Lrooc8x4e+48RUlEB3bQ+u0c/cBYiwACCCCAQPIFSIgl35QaEUAAAQQQ6JQCDcmN8LnAHB/2FZbU8ksZE9sPHKx+/uVahQ5ZdMwf1uU0DT61KYkC846Ef1RxUZFxF8RxGjl/S5x2OUrZF+RavZViJKjq39aaB7ZaQ9HCj8N5jAkOeUvJ1OCzrCRXtF51drRH69tnnBI1oRQoEpaAsrdzcyFeTD6dmJlh3WTByIdFzLPmiCulq7p3D3Yvc6yPWDSSOzeMNNKIsR8pmZfoyuAdS+v2ave+f1qF3WqbVJ11xslWIjd2XIm9EhyKG5loTWz7QKm6/3tVLwfnNGssseZMKO95VjNzol1brd3OTTlayiKAAAIIINAyga+0bHO2RgABBBBAAAEELAErwVO4qlqBucCGW/P6BD/sG+V8vdSn51cjyXoO1FlGb6k3jSFjdS+9qoq6MRpu9vap/1C73/mHv7xv6BnKtocGhlVRW661q1/XgfrdenJZ6J0Mw0rGfJqSfZl+MPAhLTR7efl7zBg9jhxJgoZebkYVEckGxxxpxmC90ulDlTk95q6ivPCedlcZx5kRbahcS4bQRdlVUlYlHlNKj246tqX7jHXehNRr9ALsa/QCLDGHw1o9Df3t51bbdFGPbtGSSCFBJfbE7tmV6rjhRGKbNpSq0/vGXG7B2dO6nHW6Tk0k19hQQZSlVm7nKBGwCgEEEEAAAbcE6CHmliz1IoAAAggg0OkEuir7jAGBHjPOHk8xJ8V3ADmHLB5+Q1veCkwM35CEitXrqkblRVM09LQxmjF/gRYual4yzB9JSpYunxicV6lKGzZud8zr9YUqNpYqcI/DlvXicRy1Y/Gwag7Gmgz/OHVPjZUJdFTRqoutHFNKN3U7trHsjk/duh9nKSRz6Gi8tkkOut2zK+yGE02rvU4HD/y9aZs0WrqV27nReCiAAAIIIIBA8gRIiCXPkpoQQAABBBDo5ALG0MfzRlrzEjXMI9YwKX4X9Rtyaoxhb19Vzz69rOFn+/Ty62bqyTnULVpPlRptXVygCfONux1GlTfvyjhbc+bNNe70+Kw2zhsctVTDSmf8YcMm7TsAmqXDh0s21ND8pWQmcJofBVtGE3C7bb7QW1ve8Pfsiju8NFporEMAAQQQQACBZgswZLLZdGyIAAIIIIAAAhECPU7VGf27qLTiH9q5+0MjpZXq6FnVU2d9Nz1ik8CKYDJqk0rrDmvH5rdUU/B1Vbz6ZmDOroghika6rLxYP11ebs3p1VUD8gv0vTPO1rgod5qUUWpPZYxdO1dbE9SXmsPuHMMmG3qqGYWjxOKsQkrT+BVPa1FutOGPoSV5lqBA/UEd/KzeuBdBvF5i/1DVrvesClPVLzN4EwXnPjzYNnayNV7C2HkMsZadPeRilWE9AggggAACCAQF6CEWlOAnAggggAACCCRBIF2DhvY06gn2sKpV1c6PA/U2lkiykmlm4bp3dmlfXaW2vFxjPIs2RDF0CGNa/jLdv+THmhw1GeavMcHhZM47XgaHTYbuK/zukmbt0tHGXSyD986s0StbKh3DLQMl2v5/a56ymIE4E0oxC7XNCyGT5McIoT54vpivH6vu3f7LKujxttm3TS8bc+dJ8RLG1qHE/fFlde2eak/yH5jHL94GRpK4KF+ZvTP8/06ZWWYll+Ntw2sIIIAAAgh0HAESYh2nLTkSBBBAAAEEPCDguFvjR5Wq+uRtvfaSOcm5kdY6OUs943XwMe7xGEimGYXNbStetxIFR0eZaPxfqq35zF+v0W1I54wcHOcujEax2pf053VVVvl4P4yeannjNTrNnLPLSurVbdemJ6xtfefpJ5NPU+Rh+PSt7w5quEvlujV6odbo0eSpRyNzYdVu0bMvmAlILz6CycnYscXuxefltqlXzbYt2mEeVmMJ49iHbr1inLv23VqNVf4ejrHmpTNeNxKIf3nav2fjSTLvmGmFww8EEEAAAQQ8LkBCzOMNRHgIIIAAAgi0N4GUU0/XmV2MqOve1MsP/EWv+G97F2tSfOfROZJpde/q5T8/F0gUNDrR+D+0u7I6do+s2le05KrpWl1t9sJJ4JE6VN+/PCNQ0EgqPHv/em3w9+AxknrnjtSwGMP2UrLP1yXGnTL9j+pHdevMNdoTLydWu0mzh/QN9NDJmqDiyuD9AROIMeEiX1dmv+DQzVq9+NAGVUaNyZiPrXC51idqlPD+k1XQSE4Wz9eyrTESdkYbL/vFQzFveuDNtjFtGu7AmpS7QmZcoqvygu29Uyt+sVxboyZmD2vP+nu00ryjqvlo9BoLFON/BBBAAAEEOpIACbGO1JocCwIIIIAAAl4Q8J2s04eaH8qrtW75KitJkaUzBh7faHQpPbPU159Tel+vvLAjMISr/2ANjEhCOe5oqUMqn1+gH96xKTQBVVuutb+fpdGDr1RhhfXB3x/BYe3a9X6c4WGOxJx2qmj+H61jaCSpl3Kaptw2zphBzHzUqXrjLI28fJYK15Qr0EfO/4LRW82Iq2ihCkZebyXpfEq7fJLGZZpZxGQ/nE5GVNuW6qopd6qsKph8M25cUL5WS64brXx7PrZkx5Ck+urKVTh2tAoWr1W5neQx7jK6ZrFheXVDG6eN0y+nhvXi82TbGC41m/X0C+bZkaweWicod+JF1jlotHfF3Zp41VwVl1Y1JIzN82/xDZo4/UnrZhTm+TdeuRHXWJLajWoQQAABBBDwqACT6nu0YQgLAQQQQACB9itgzcNVsqkh6ZQ+SIN6Wr2n4h2YY1L76mozaWPMHzZ0oIKzczVsGhza+JyVVNqv0runGP8aSsRbqq85KHPAZY8YhQI9iu5TodUzzF+s0V40KUrNna7fTduhiVZyqa5ilZZMN//F2JG52kjg3D43N/6Qzzibx38p3MlI1JX8TpONfxGPtDGac3mVFhqxe+7R5Xua+eNPdefSzSpdPt3/L3qMvTR+wc0anho+qNWLbWOMWty3SzvNjouNnlvRjzZybfTjXDhplRZGFvav8WVP1e9cO/9i7JTVCCCAAAIIeECAHmIeaARCQAABBBBAoGMJGEmY80bqHDv/FW1S/FhHfLwGDslyvJihSy7oH2XOLqNIaq5m3zNVA+z9ODYLWTR6wOTdqOIVP9UAa71/0v6oQwetAin9NeJSa9iktSrecMmG3fXQoFlFenjeCLuXTsNr4UtmXHP16DO/jpLACS/bgueJOKV9T0sf/qXO7+7V70qPUt/rbteCC2LdpdTw8eVo6po1xt09Y/VE9FrbNNysIbFzK9FzINHjDJx/Dz94kwZFJBAT3RflEEAAAQQQaL8CJMTab9sROQIIIIAAAt4VSO2lrBOCmapok+LHCt05AbpRxtdLfXp+NUZhozfMoOlav2Wtls6bolz/RPiOoml5mjrv1youq9BL9xm9hoaN0PcGdg0UaGzCcR2lnMlTlRs8BKP/1jkXD4nZo8yxV2Oxh3IK7tVLb5hx/VTjs6192oXSlTtttm5d8axeuK9AOa4nI+I4mUY/X6GSl+7SmAw3hmzaB93yhZRMjbl3vR5ddkuoqb+d79SjW1Zr5qBYff6Cu/dQ29QHb9bg0wl9eyW5h6DzOMOvDTMRNqUVz7+gPT8RQAABBBDwlsCXjhgPb4VENAgggAACCCCAAAIIIIAAAggggAACCLgnQA8x92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEEAAAQQQQAABBBBAAAEEEEDAgwIkxDzYKISEAAIIIIAAAggggAACCCCAAAIIIOCeAAkx92ypGQEEEOiEAjtVPKq/MntnhPw7ZWaZ6iI0alS+ZqWKF0/W0JDyfTX0uoUqLlqv8tr6iK1Y4YZAnfYU5QfarN8slUU2VgI7Paw9pXeq4LqV2hOtdH2Vyu74kQqKdkZ7tXXW1axVQZZxbp69WOURp1a9atZMUb/efTVs8VZFvJzUCGN516ps5pmBdhhVFN0xqXEkq7J2eDxVRRrt/71zpmaX1iYJopFrIEl7ab1qGn6fR/8d3tRIHOeJ83d+s3/nNHX/lEcAAQQQQCBUgIRYqAfPEEAAAQRaQaC+6inNGzVc46bfpoXLS1Qdss86VZfcq4Xzb9a4wWM0b1OVy8mJkJ3zpFkCX6h88WXKm/Q7lX7y78ga6rdqybALNfnuMn0S+WorrTESXs89oxeNZJ/v5Cz1TAnf7Ud6/qktRuL2aPXt8w1FvBxenOcIhAg0cg2ElOUJAggggAACCHhB4CteCIIYEEAAAQQ6oED2XJU8XqDe4YdWu0nzJtyk1dVGZiItT1OnTFT+1cPV285AmD3HHtGfHyjU6ooKPVJwlWqW3a97xmaSpAi39Mzzf6m25rPY0fznMx341Ox2Zjdy7LKuvfJP7du910h4pSr34iHqEb6f+g+1+51/GNmy83TReSeEv8rzjiaQUaD1ewqSeFSNXANJ3FPrVdVXkx/frslJ26FPvQtWqdLPbvYWm6i8+VuSVjsVIYAAAggg0FQBeog1VYzyCCCAAAItEDB6URTeYSXDJqj4mULNnORMhplV91DO2Ou1aN0qzRnY1Xi+X5uW3qcXGD7ZAnc2Vf12bXqiykh4DY6a8Kqv+Is27K+T79yRGtajLRN3tBUCCCCAAAIIIIBAawiQEGsNZfaBAAIIIBAQCCYl5FP65WN1bmqcxENKP137s4lKN7esflp/KvkIRQSaLRBMeKn/YA2MSHh9oYqNpUbqtYv6DTk1svdYs/fKhggggAACCCCAAAJeFSAh5tWWIS4EEECgIwrYQ+cSO7iU7PN1SbrPKPwP7dz9YfS5xGrLtfb3szTanCw9OFFz1mWa/fs/qqzqcJQdOSZ2jjeZc4xJt+tKZ+kUcz/mtofNieKdNwU4z5igO2yWLDO+ooUqGNI3LL54Nw2oV235+ogbDvQbNUuFK8q0J9aM73bMGWrZJNjm5OAPasl15zTE3PscFSx+MMw0aJmjyausmeAqFijP3w75Kq56O3CThaxJWu1visN6c/6FoZPG15Vpdj+z7fprtDnhvjn5fpGzPQM3WVhZGmsuuYaJv/1tEvWGAHV67/WtRsLLSMQOHahvRZwV+7X1pX3G2p4667v+FGxDiWjtZ0y877/xw5pyxZ6OPdCGhTMvMybqD56bpuHaJtwswhw+fI9mj8q228F/DsTdr7lNUVjbGfsfMllLWnSjirY6noamiLVUX1WmleHXmN/c9C5U1HPHvlaiTarfFMPGroGoJ2SMQ4lvbP/u6W1eW9HqjTxfMntna/TMu6IbxIiiYXXDtRX6+yT85g/m74uikPPUf77F+13VsBOWEEAAAQQQaDMB5hBrM3p2jAACCHRCAd+J6tO3i1RxWPvX3a/H8k/RmAzjeaxHyiDN/OtOzYz6uvEhbNNi3fSj+/Vm+GfDugqtXmT+K1TuvN9qacEgY+aoZD8+0LOzr9Xq9XsdFX9V3bsdbT03Ptxu/a2uueLuGPHdrNX3l2jpw0vDDIwPtUVzdMP8TWE3G5DqKlZpifnv3u9F2c4RRosWP9Kri67UtPvKw+4Mul+ly3+h0uL1mvpIkWYOipiFq0V79W984CUtufxOFVYcctQVuMnC7SUP67Fphbp/1pnNaMtPtG3zLqPODF1yQf/Imcxq3tKr242MXXquRmQfZe+7vmqVrp9wqzaZ892FPKwbP5Ss1Mpnb9dDy/Mdc+CZBWO1oWk4XaXrntHUc78IqTHiSf0OrZoyWoUb94e85D8Hpq/SnQ/coIcevEmDnL0s6yu1dto1mhG2jb+C6hIVzjf+3RftnAvZRZQnbXQ8USIJXVWjrYsLNHF5+LkaLGV6LzL+3ZP4ueOaYTCmWD+N32drZmji9CfDrvvgOVOm+dfF2tbMIz+ln/9kth4JuXbM8of05qrfGP/uUnHeDN29bJJynOdM7CoTfOVTbVl8pX4W3gbm+XZbiVasj3KeJlgzxRBAAAEEEHBbgB5ibgtTPwIIIICAQyBTl199jtFPx3hUP6kZw0cYPTiKtLa8xlEmkUUj2VR6myYWBJJhvux8zVlRqp17qlS5Z7e2rluo8dmB+cdK51+ryUU7ovcuS2RXscoc/quRDDugAVfeo5JKc7+v69HfzlO+lVCpr1yhycFkmHHzgOvt+IxySyZogIlgGMyd/gdV2j2+Dquy6AZN8CfDumpA/lwVl2036jbr366SFXMDx2XaTbhNZeHzqvknCjfLVuntJcMDzrHij7X+8PMquu8t9cj7oZaue93atxHzvBFKM7epK1fhT4pV7o/ZmiR7T7mK8/2vSubNFPzxrtLkjFP8k3JX7lqh8f68ZxcNmPdsoM6IGy4YvceW32Ykw2Qc90I9+sZuf7mdZffq+jyz15bxwX751ChtGZj422+0Y7GG+0+usIOr2aynXzD6coUlvAKlgnefNHqPXXq+su1RvB/osdsXBpJhIe1n+FaWqviGPMPDSIxtvF23rHCeX+a5ucxKaPqM+0bc2NCGwe2qN6lw1dthQYY9fXutPxnmy55gzKdntUNwe6NoXcXdRvLkMSP1FnwYx7F+seb6k2Hpyr3hXuu8DJ47Nyo3zcCJOOeC28f62VbHEyue4PpAXDf6EzHmtdJwzgSuF8d1Zp47xf+/vXsBjqpK8wD+X7t6J+UUbh4+GEUwG4hx1YwhgyIuriRE8THyTBakRMwmRCxnXQiPhDCoQEIITx2UR0IYmUU0vEdUhCFRKZGHCAZmBwPZDBhHEAkRVoudVNz9zr19u2+6b3f6Jp3EHv9dFbr79rnnnPs7p+9Mf57HGlSed3/RjEy8ntti2Np3wKpDehUrdyftfqYFw/z1me0oKNwOCdv6PlwblWjBMGci0gvKPW1/ZDOKMxLlXqCCuEUYk1luut/4ZmX7SPUq5EkbIFA/DXWZtivJEyhAAQpQgALWAgyIWbvwKAUoQAEKdIiAAzEj52HdxCRXsEaNfijC1OG/kClhrmlopaWtT+9prETxjI3aSApnohqBUISslFjXyB8HIpNGmxblv4TDJYuxrdUfw2244B5j8dych1yjg2QzgGH3ul5LMKXoFRxWA4uc/ZG/bhkmu+sn6TJmYdG0/ppB0yevoHjrX/TCz7+N4pJ98tO1G5IKKrCpJBuD3CPoInBTSjaK1y5CuhbY2IjnVx4JfaBPVbnvVKxdNR0jkoxRYFLn7KVYNjFer2f9IRw67T1qSv+off9KYEONAisZ7R7F4ohNw+RVpa4NFqQtV6+1ucGCEfACIgbcidvcAS+jpmfx/tsHxTwGd/cz7WRqBNHUrpRTZ5vaT85zxGLQlNnITVXjDqVOb+7B50Z2zUewaparb2qOkzxtqJ23DGsL9LY3TvH37Ow7A29tKUK60Q5e5zftXonVh42RZsZ1SPulTkLxlDTTqDXVd/4dxVPvc/W5XagKtv267Hr8qRjHz6Jy3Tv6PaDvr7BonqfP6CnU92wOVhen6feapqM48Kl55KGRj/m5gwzNRVi9bpfxOVQVFeoblTiTZPRmOYqzB3naPjIJ6SVv4C1Xn2txv7GqSxuO6ffgOf776SfrUPq+11TyNpTDUyhAAQpQgAKhFmBALNSizI8CFKAABVoRiEHy9Newo9w1YsWd2jUNrbAIczNTEK+tfVPqtWaVSiwBjt0bsFWbxtYLw/5jXMtpY0Z+5kX5mw7infdCvSi/94gio2B5dgdTJE3WFDwZ5z0tNAJxI9IxUBs80og9b++TkT6ewA0k0FaQmeA7tU8VEZmCqVpgown1b/4B1a0NejFVK7iX8ciUzQzifAJHV+K2fnfIsvPq8TlO1n0bXHZ2UnV/BM/m3Ok7JdLclrY3WPhfnD55SgJekRhw182uQKypUs1f4uRnci3O23Hnz9WoQtfj4nmc02J+/tavux4jZFqpNhrJNNrNvXg//DlK22dOQaa2Np5RmNVzMOfX4NX1++Xa1ON/0HBOHz/U9NkJnPbpFyoYvQrH3aP3ghm5JN821+6b6PTrsTIxH/P4H9+cbdFfVVoHroqKsv4embNyv+4YQ3f2fl60y/j8Hry2RU3blpFlwydiguVUZnOfM+43fipj+7C/e7C5zFPYum6PaTSj7UJ4AgUoQAEKUKBDBBgQ6xBWZkoBClCAAoEF1IiVSSjdV4OaqnLMLMhDjjYtznyWWvtGRn7JtMqnNtWaRkIZAQ5JG3EXHhh4jfmkFq89i/KH+kegKuaniO/9M8sf202f7sdeLUrhNerIXLuYESg9oU9vPL56hIxP8oxOsR7JZJwsgY2+/ZCg3tZXYle1MULI+Lydz85e6N3zJ5aZOGN7o4/lJ6E5GHFvGv7Zz/pGnrb0F6DyUwdjZ1NnPzx433U+iYxghPPeIfgX8+6TPftigBa0ksDj8icxUhYmLwu4mL3K2li8X15G3IF+t3nWI2tRsCMO/QYYo+9afOJ5Yzm90/Wx4xak/TJWe3N57wEc04JfPZB8T089Qf0KjBkuGzC0axF9lVVXXo9+Kfb/VQu8/yfKZKRp2fws3JdZYT3N0DLjjjC0LMh0MFhjT5ubTkbz6ROocd1rBg7p5xtMNhKb+kzTBzvwfqhGzAa6B5vLtAzSGpXjMwUoQAEKUKBrBLiofte4s1QKUIACFHAJOGIH4UmZ4oPsHG3xfLVj3No/HMNnb5Zig7ZAdD125f4bCqI2oDhFBb/+isbzF/Wz43sjNtBAF8fP0PtmWeS+vhFN587L5DZI4ClUjwjERFkFPJrwhawppo/VuRG9Y41F9lsr1zM65XJFJhIqWkuvPr+Ihgt/lWeregRzvkUaRxSirvIZHmaRMNSHItCnzw2+I7iMYhzdEB0t9aq/jLM1p2R3x+Sg2tId8Er1Cnhp+X6H6p2VsvukTIt8qH/L/Bx3YMKLOdirrQNnLEy+GPNyZSyOrFk36Ze3I37wKM90SC2/b1F3wjV5MmDf/Cli+9woZ5wxrs73OToaUX6bwYmo6H/Qz/m6AY3fy0vHlUjKeR45H+ZomxIYGzCgcJKqMNJzH8HN8YMxzj1117dI3yNdeT2+tbE8onYlfXU73t1q3C8sUwV5sCMMWys6WOOfoGfvXvL9qHGNCNTz/f5CA77WXrZ2rzGd39SIhovSacwB4Naq6e/zgP3c1E/P1qJO1jxMCkWZ/urC4xSgAAUoQAGbAhwhZhOMySlAAQpQoGMF9ADZr1D8+wPYXTpeX3wep7BhVrlrIfevUHtcFkgP6nElomK8pysGdWLnJ2r6AidrLJfM7vy6/CBLvBZxCfpeoUZws/VqGgEvJ66L7+U7esYYPYZr0ecf9bw9ecpadMm52LRTRjBOVAvoex5asKnw1zJ68RYkPDoDG2xvCuHJK6SvIu/GtC3bUDZrgr6AvpG5tuuqaypyn6HIqzgsAcW/gUfjR7Ir6VBkzV7sCp67rkkFAPNmIF/uGe+UZrim+QZ5vT9YQ6vpn+bge2vXZ3V+a+e093MnboiL1f2NIFx7s+T5FKAABShAgRAKcIRYCDGZFQUoQAEKBBJoRNW0B5FVIaNi1E6EpnWXrM+SaZVpU/Fc1l6MWl4DuEcYuAIj1QFG17gz/A4XzodJkOmKqxB9tQx3q5fNECeuR+X0ZMvpmO5L+9G98ARCIxJ644agrr8RdTVfScpYPHz/Lb6ejadw4qzMNwswPVEL0E6XUYzTZSfAw29i48eyfpp79KLa7XE98jLq8M2ONciKC6pSHZtILbyfma/9SYWxecPHOHdiO5ZUVOsji1RwbNoTOPlNBd7I9rNOXcfWMES5q8Xk87XRcNKASJmYjccyMrxG7En7VO6wX94P0rAZFy9cME0dV5dlBJwOBjEt1Op8+zT2zjAF7CJiEdfqunn2cmdqClCAAhSgQHsFOEKsvYI8nwIUoAAFghT4e0TGXKWn/dNBfBLUGjamhdzdIwxM+dScRJ22fo6fKhgLpsvHzmtiZO/G4B9NdSdxIvjkppTGj1R1KNDi8ypAeLfsrik/FPtMwObGa/XpnRK20KcEmrL8UbxsxoWGS14/+E0X3nwJDQ1qsSwnrpZ+FNT/gTE2N7AMeBmbGATYHMFUvFqgPTJpGLKy1ejFatQe2YzijER9imfTIfxu4x+l7sZUSDkxYN9skmv9pkXuPm8aGnDBZ2F8I5Vpmt3V0Yj0hyE7DI7IzkZOyTZZTP9jbCwZ4xpxKTtjvrotiA0ZfmDXY1y+ejYtJt9j4lKsmD7OJximNuDwDSKZMwnidbsNWysj2PuZae1EU5ZXREXjau19oHuNSmA63xmJ6Kv8dRpT5sG8DNhPTf08UD8NphymoQAFKEABCnSAQIj+17ADasYsKUABClDgb0zgSiTenyJjOeTRtA+vbT7hP/jhvvLvcOzgEX30Q49kJPdUC4YZa+HIy8v78e6ec+7U3i+M9aNkhXMk9L+t5RpRKnHzBVy4aBV1MJXrnWkQ750/vwsDtLXNzuOjg+YNAUwnN9fi4N7z+oFb+qFvTAxi46/V3od00WtTkT/sl4F3zfS0pZ/RXj4X11rAy9jEwDq/psrpuFUFK2/KQJlV1FUCJeklCzAlUU3JbcLXsq7d9xIeu/EXyXofD9Q33VM1fSrtORBowwR33zEF85qqkJeg6nsLhpXKiEqfRwySMl7A0mn99E+Mtcd80pkPdOH1mKth9dq9C2iAjStMG1VYZeFzrEMMfUrxOmC6L14+goPH/GyS0Xwah/Z/6XWuhGl79kG8616zZ8dB/1NhzX1Ou9/4XaDOp4yABwL20z9h15t1crqpnwbMjB9SgAIUoAAFOleAAbHO9WZpFKAABX7UAo6kx/FsqlqrSUaolEzHrF11AYJiMkXt0HK8UKZ+3Jt/UMkui6npGNZd/Qo8ha1L1+KQLNbs82g+jjVz1qkZiHL6QIwbYcxnuwLdoiNdI3tqcODTBp9T0fgh3tiifsi18RHTHw/eq65TgjxlC7Gm1nvaplzb+5uwrV4Nb5MF3Z94GDfJwviJo0YhSV1W03tYlL8Jf7a4LIkCorZ0DBKMkWVBjbRr43V09mn127Fyq0UA0dyWlqO9rCp6CdX7j0oL+NkNtOkzHPhQVtLys6umJ6h5BGuWv2cdaJAplye/Uo3kGbXmSByKx/uqsYj++qbsgrj1t662t6q3cawO25Zvt+gD0v7lC1Gu9R1TMM95M+68R/W5yzi6+reosvpOyFXUnVBTSOUR5IidLrsevZZB/HsZ5y9YBZHkO1a5DIt2Sxtrj0Ycr3Vdu79cO8jQX3HGcc8OqjUol3tWrc/3Xt0v1mLNJ2pbEK9HzEA8NryXHGzCmS3LseqQK8jeIpm5zxj3mxYJ2vHGZj9tR0k8lQIUoAAFKBBqAQbEQi3K/ChAAQpQIIDA9Rg6Mx9pKpglaxm9nj0UI6f9BmsqWwbG1E6Ta+bn4OGRy3BUYkbOxBwszrnDswYVTy2UAAALR0lEQVRUZAryikZpC503VS/D2HEzUObOQ348Ht6MkgnZmKf9gOyGpGmTMdS9u5kE1O4bgoHaqApZrH9GPha7z5VgRWUp8sblYsOZQHMxA1yi9pFc54ynXcGtfZg39pmWZeyai/E567U9Bp19n0besOu1sxxxj2P+tP4SXpEftztnYuyE+dhsXrBdrQk1/xmMK9wnKbyvq7U6ddLnX9Vpu8lBpjg2+oy+a5b1rNQOkTI4r7FR2/WzZa3UjqLj8dTCXe5AUHPdLix2t2UvpM/ORFIwg1uMUVTOfnjwvutaFqPKP3YAH0mc0nmv1e6TkiBmCJ7OipcX0hYVszF1/mYcdgeZXH0sd7beT5zJeHzUrXr/dPTBqGceMfXNX3sW3Vc7Ii58BmNztwfaX9JVV6MPLEFVnSugKu2/Ydq/4mGt/Z3onjEFE5KMHUalzz0zWh+ddmYjZuYutOg7+ZhZcUryl77zxFAkBuPYZdfjYvD31LMvBmhrUjWiMm8iCszBde17IvePTP075i8L3+MhMgz4HfAtFWpH09mu+9knCzBugqnNtT4T6FquwaAZBUjX7qmHsXJ0JvJKq9zfH20dOfc9Q/q76X5jUZM2HLLop65+rt+nvPtpG4rgKRSgAAUoQIEOEuCi+h0Ey2wpQAEKUMBawBGbgZfXR+HFubPx8u56HK1YrP3NtUwuP6ZSp2LZIgmCRJp/vct6TimzsG7RJT24UF2BeZny55OHLLZdsBQLvBcPj3kIBcVV+C8VmDizGy9nyp/53O6PYEF5PNZmSt3Mx228dsRlouz1ixg/WoJ6VmVIXs7E8XJtjyPOfWkRiMtehnUN2Ri7/DDO7F6BqerPp9xuuP2xYizM9FoUva4UwwYVaXWOyCjHkZJB+kg4n/NDfUACLEMGoXuFBCDOrEfWHeulgO5IL38HxSkyasl5Gx54tBc2SDDmTMUEJFfIxxEyFfHofAxyVyUC/5QxGjd8sA67lk2ADO7xevRA2qLVKEy5xut4DcoeHYp51RI0MvKUYKcxxdKZahXwMnaflNEyD/X3nUqrlXAlkqa8ggW14zF1Zz0ql+dqf16Fq0bE6FeK8GScsZupd9+URfeHy5/5xO4jkD+8DvOkjf0+EjORn7Ab8ypeQtbul7ySyffi/rlYNy+txc6ZjqRn8eqiev07YavvWBvqhXbd9ahg5J9LxyK18KBUxdSfVMVUEOnFHOxV3y8tuJ6C1/UKe/7tnob8OcnY/3QxKpsu48SJLyTH+IDfibYbtvIdgA1jaW+fNpdrybn3L1hZ8UfP9RmvItNQuH4uGsfMxK4zsmlCYab8GR8az557qed+oz4LYGycGuj51hHIueEAVu60qLNIW/XTQNnxMwpQgAIUoEBnCnCEWGdqsywKUIACFNAEHLFpmLx6F3aXz0F+XoZroW8TjgQZ0vNmYGb5u/hgdbZXMMxIJ7tQjvwNPqgqx0zvPLTz56CsahdKs5NbBA30s9W5S/HWliWYZiyMrj7QzluCjTuWYkSsEeAwyrP7LIGE5FxsPbgZCwomIEWb4unKo3sqcmaVY8eW5zDYp5wYJE/fgH1St/yJqdpII0/Jaje9GViwpQpbix7CTe5AmidF17xSQZNcLHMv2q5qYZ6ipkaxLPEsQq8+vlyHWm3an3qjPxx9xmDFjjewoMV1q2t+QWvLFSPjPKMEjZMsn42Al7+144y1jfrgrr7eATZTho44jFi1FRsXzUBOqrb6nedD1YYF0lekfQvTYr3qZeqbPteySPpXIQZHt/bfJLtjcMkmKfspU99RQY0J+vdiVYZF+3v6dWj7Tlddj4fb95X+/dq0sxz55u+wJHQmZmCafL92f7gKWWkjXFMKpcvtPYBjPtMRvXNuq2Fr3wHvcrzfe8ptcU/SdtBUfeYlZPRxjQa0WBRf/YeGFR++i7JZk5GeqKbsGg8JnmdMbuVeaqRtw7MjARnad8ROP21DOTyFAhSgAAUo0AECf/d/8uiAfJklBShAAQr8KAVMoyASZ2D377NlbSw+KBBAQC1kfruMaLkcgdsLtmFrtpqmyAcFKNBSwDSSyzQSsmWaUL/z3M9bjjhVO+Q+iKyKM0Cb7/NdcT2h9mF+FKAABSgQ7gIcIRbuLcj6U4ACFKAABShAAQqErYBnR9MHUHLYaoMAdWnfyoYIn+vXGN8bsdoaiJ11yZ5NIzqrRJZDAQpQgAIU6AwBBsQ6Q5llUIACFKAABShAAQpQwELgiqhoXK0d/xIHPj5tufNuc+0GvLxFRmTJulw97umLGy3yCfkh2RijoUHNMXUgKrqb17TgkJfGDClAAQpQgAKdLsCAWKeTs0AKUIACFKAABShAAQroAo7EwXhY2zHzEg4XZrfYZVVWPpOdb5fgqbELcFhtfNt9FJ4377jbYYiyk+qR97D3rCo0Eglx13ZYScyYAhSgAAUo0FUCra3o2lX1YrkUoAAFKBDuAtVFSL2pSLuKluvPhPuFsf4UoAAFQijgSEbu7+biv7VdImVHU8tdVqU8tfvt+lkY1GLH3RDWQ8vKtD6YkXX3QXigr3mhfuMDu8+mdcPsnsr0FKAABShAgQ4QYECsA1CZJQUoQAEKUIACFKAABYIV0HeJ7IeqV7fj3a2l2FB9yX2q2jVz0rAheOCJQRY7i7qTheZFcy0O7j3vykvtajoRc2dO7OAgXGiqzlwoQAEKUIACdgW4y6RdMaanAAUoQAEKUIACFKAABShAAQpQgAIUCGsBriEW1s3HylOAAhSgAAUoQAEKUIACFKAABShAAQrYFWBAzK4Y01OAAhSgAAUoQAEKUIACFKAABShAAQqEtQADYmHdfKw8BShAAQpQgAIUoAAFKEABClCAAhSggF0BBsTsijE9BShAAQpQgAIUoAAFKEABClCAAhSgQFgLMCAW1s3HylOAAhSgAAUoQAEKUIACFKAABShAAQrYFWBAzK4Y01OAAhSgAAUoQAEKUIACFKAABShAAQqEtQADYmHdfKw8BShAAQpQgAIUoAAFKEABClCAAhSggF0BBsTsijE9BShAAQpQgAIUoAAFKEABClCAAhSgQFgLMCAW1s3HylOAAhSgAAUoQAEKUIACFKAABShAAQrYFWBAzK4Y01OAAhSgAAUoQAEKUIACFKAABShAAQqEtQADYmHdfKw8BShAAQpQgAIUoAAFKEABClCAAhSggF0BBsTsijE9BShAAQpQgAIUoAAFKEABClCAAhSgQFgLMCAW1s3HylOAAhSgAAUoQAEKUIACFKAABShAAQrYFWBAzK4Y01OAAhSgAAUoQAEKUIACFKAABShAAQqEtQADYmHdfKw8BShAAQpQgAIUoAAFKEABClCAAhSggF0BBsTsijE9BShAAQpQgAIUoAAFKEABClCAAhSgQFgLMCAW1s3HylOAAhSgAAUoQAEKUIACFKAABShAAQrYFWBAzK4Y01OAAhSgAAUoQAEKUIACFKAABShAAQqEtQADYmHdfKw8BShAAQpQgAIUoAAFKEABClCAAhSggF0BBsTsijE9BShAAQpQgAIUoAAFKEABClCAAhSgQFgLMCAW1s3HylOAAhSgAAUoQAEKUIACFKAABShAAQrYFWBAzK4Y01OAAhSgAAUoQAEKUIACFKAABShAAQqEtQADYmHdfKw8BShAAQpQgAIUoAAFKEABClCAAhSggF0BBsTsijE9BShAAQpQgAIUoAAFKEABClCAAhSgQFgLMCAW1s3HylOAAhSgAAUoQAEKUIACFKAABShAAQrYFWBAzK4Y01OAAhSgAAUoQAEKUIACFKAABShAAQqEtQADYmHdfKw8BShAAQpQgAIUoAAFKEABClCAAhSggF2B/wdn/qket5Lu8gAAAABJRU5ErkJggg==" alt></p>
<p>(iii) Identify the species causing the large peak at <em>m/z</em>=31 in the mass spectrum.</p>
<p>(iv) Identify the bond that produces the peak labelled <strong>Q</strong> on the IR spectrum, using section 26 of the data booklet.</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>Phenylamine can act as a weak base. Calculate the pH of a 0.0100 mol dm<sup>−3</sup> solution of phenylamine at 298K using section 21 of the data booklet.</p>
<div class="marks">[4]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br>