File "SL-paper2.html"
Path: /IB QUESTIONBANKS/5 Fifth Edition - PAPER/HTML/Chemistry/Topic 1/SL-paper2html
File size: 1.04 MB
MIME-type: text/html
Charset: utf-8
<!DOCTYPE html>
<html>
<meta http-equiv="content-type" content="text/html;charset=utf-8">
<head>
<meta charset="utf-8">
<title>IB Questionbank</title>
<link rel="stylesheet" media="all" href="css/application-02ef852527079acf252dc4c9b2922c93db8fde2b6bff7c3c7f657634ae024ff1.css">
<link rel="stylesheet" media="print" href="css/print-6da094505524acaa25ea39a4dd5d6130a436fc43336c0bb89199951b860e98e9.css">
<script src="js/application-9717ccaf4d6f9e8b66ebc0e8784b3061d3f70414d8c920e3eeab2c58fdb8b7c9.js"></script>
<script type="text/javascript" async src="https://cdnjs.cloudflare.com/ajax/libs/mathjax/2.7.5/MathJax.js?config=TeX-MML-AM_CHTML-full"></script>
<!--[if lt IE 9]>
<script src='https://cdnjs.cloudflare.com/ajax/libs/html5shiv/3.7.3/html5shiv.min.js'></script>
<![endif]-->
<meta name="csrf-param" content="authenticity_token">
<meta name="csrf-token" content="iHF+M3VlRFlNEehLVICYgYgqiF8jIFlzjGNjIwqOK9cFH3ZNdavBJrv/YQpz8vcspoICfQcFHW8kSsHnJsBwfg==">
<link href="favicon.ico" rel="shortcut icon">
</head>
<body class="teacher questions-show">
<div class="navbar navbar-fixed-top">
<div class="navbar-inner">
<div class="container">
<div class="brand">
<div class="inner"><a href="http://ibo.org/">ibo.org</a></div>
</div>
<ul class="nav">
<li>
<a href="../../../../../../../index.html">Home</a>
</li>
<!-- - if current_user.is_language_services? && !current_user.is_publishing? -->
<!-- %li= link_to "Language services", tolk_path -->
</ul>
<ul class="nav pull-right">
<li class="dropdown">
<a class="dropdown-toggle" data-toggle="dropdown" href="#">
Help
<b class="caret"></b>
</a>
<ul class="dropdown-menu">
<li><a href="https://questionbank.ibo.org/video_tour?locale=en">Video tour</a></li>
<li><a href="https://questionbank.ibo.org/instructions?locale=en">Detailed instructions</a></li>
<li><a target="_blank" href="https://ibanswers.ibo.org/">IB Answers</a></li>
</ul>
</li>
<li>
<a href="https://06082010.xyz">IB Documents (2) Team</a>
</li></ul>
</div>
</div>
</div>
<div class="page-content container">
<div class="row">
<div class="span24">
<div class="pull-right screen_only"><a class="btn btn-small btn-info" href="https://questionbank.ibo.org/updates?locale=en">Updates to Questionbank</a></div>
<p class="muted language_chooser">
User interface language:
<a href="https://questionbank.ibo.org/en/users/set_user_locale?new_locale=en">English</a>
|
<a href="https://questionbank.ibo.org/en/users/set_user_locale?new_locale=es">Español</a>
</p>
</div>
</div>
<div class="page-header">
<div class="row">
<div class="span16">
<p class="back-to-list">
</p>
</div>
<div class="span8" style="margin: 0 0 -19px 0;">
<img style="width: 100%;" class="qb_logo" src="https://mirror.ibdocs.top/qb.png" alt="Ib qb 46 logo">
</div>
</div>
</div>
<h2>SL Paper 2</h2><div class="specification">
<p>A student determined the percentage of the active ingredient magnesium hydroxide, Mg(OH)<sub>2</sub>, in a 1.24 g antacid tablet.</p>
<p>The antacid tablet was added to 50.00 cm<sup>3</sup> of 0.100 mol dm<sup>−3</sup> sulfuric acid, which was in excess.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the amount, in mol, of H<sub>2</sub>SO<sub>4</sub>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Formulate the equation for the reaction of H<sub>2</sub>SO<sub>4</sub> with Mg(OH)<sub>2</sub>.</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 excess sulfuric acid required 20.80 cm<sup>3</sup> of 0.1133 mol dm<sup>−3</sup> NaOH for neutralization.</p>
<p>Calculate the amount of excess acid present.</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 amount of H<sub>2</sub>SO<sub>4</sub> that reacted with Mg(OH)<sub>2</sub>.</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 mass of Mg(OH)<sub>2</sub> in the antacid tablet.</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>Calculate the percentage by mass of magnesium hydroxide in the 1.24 g antacid tablet to three significant figures.</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.</div>
</div>
<br><hr><br><div class="specification">
<p>Phosphoric acid, H<sub>3</sub>PO<sub>4</sub>, can undergo stepwise neutralization, forming amphiprotic species.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Formulate an equation for the reaction of one mole of phosphoric acid with one mole of sodium hydroxide.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Formulate <strong>two</strong> equations to show the amphiprotic nature of H<sub>2</sub>PO<sub>4</sub><sup>−</sup>.</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>Calculate the concentration of H<sub>3</sub>PO<sub>4</sub> if 25.00 cm<sup>3</sup> is completely neutralised by the addition of 28.40 cm<sup>3</sup> of 0.5000 mol dm<sup>−3</sup> NaOH.</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>Outline the reason that sodium hydroxide is considered a Brønsted–Lowry base.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>Iron may be extracted from iron (II) sulfide, FeS.</p>
</div>
<div class="specification">
<p>Iron (II) sulfide, FeS, is ionically bonded.</p>
</div>
<div class="specification">
<p>The first step in the extraction of iron from iron (II) sulfide is to roast it in air to form iron (III) oxide and sulfur dioxide.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Outline why metals, like iron, can conduct electricity.</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>Justify why sulfur is classified as a non-metal by giving <strong>two</strong> of its chemical properties.</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>Describe the bonding in this type of solid.</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>State the full electron configuration of the sulfide ion.</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>Outline, in terms of their electronic structures, why the ionic radius of the sulfide ion is greater than that of the oxide ion.</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>Suggest why chemists find it convenient to classify bonding into ionic, covalent and metallic.</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>Write the equation for this reaction.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the change in the oxidation state of sulfur.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why this process might raise environmental concerns.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain why the addition of small amounts of carbon to iron makes the metal harder.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p>Urea, (H<sub>2</sub>N)<sub>2</sub>CO, is excreted by mammals and can be used as a fertilizer.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the percentage by mass of nitrogen in urea to two decimal places using section 6 of the data booklet.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest how the percentage of nitrogen affects the cost of transport of fertilizers giving a reason.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The structural formula of urea is shown.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_13.51.02.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.b_01"></p>
<p>Predict the electron domain and molecular geometries at the nitrogen and carbon atoms, applying the VSEPR theory.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_13.52.37.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.b_02"></p>
<div class="marks">[3]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Urea can be made by reacting potassium cyanate, KNCO, with ammonium chloride, NH<sub>4</sub>Cl.</p>
<p> KNCO(aq) + NH<sub>4</sub>Cl(aq) → (H<sub>2</sub>N)<sub>2</sub>CO(aq) + KCl(aq)</p>
<p>Determine the maximum mass of urea that could be formed from 50.0 cm<sup>3</sup> of 0.100 mol dm<sup>−3</sup> potassium cyanate solution.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Urea can also be made by the direct combination of ammonia and carbon dioxide gases.</p>
<p> 2NH<sub>3</sub>(g) + CO<sub>2</sub>(g) <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext=" \rightleftharpoons ">
<mo stretchy="false">⇌</mo>
</math></span> (H<sub>2</sub>N)<sub>2</sub>CO(g) + H<sub>2</sub>O(g) Δ<em>H </em>< 0</p>
<p>Predict, with a reason, the effect on the equilibrium constant, <em>K</em><sub>c</sub>, when the temperature is increased.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest one reason why urea is a solid and ammonia a gas at room temperature.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Sketch <strong>two </strong>different hydrogen bonding interactions between ammonia and water.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The combustion of urea produces water, carbon dioxide and nitrogen.</p>
<p>Formulate a balanced equation for the reaction.</p>
<div class="marks">[2]</div>
<div class="question_part_label">f.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The mass spectrum of urea is shown below.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_14.15.23.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.g_01"></p>
<p>Identify the species responsible for the peaks at <em>m</em>/<em>z </em>= 60 and 44.</p>
<p><img src="data:image/png;base64,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"></p>
<p> </p>
<div class="marks">[2]</div>
<div class="question_part_label">g.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The IR spectrum of urea is shown below.</p>
<p><img src="images/Schermafbeelding_2018-08-09_om_14.21.30.png" alt="M18/4/CHEMI/SP2/ENG/TZ1/01.h_01"></p>
<p>Identify the bonds causing the absorptions at 3450 cm<sup>−1</sup> and 1700 cm<sup>−1</sup> using section 26 of the data booklet.</p>
<p><img src="data:image/png;base64,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"></p>
<p> </p>
<div class="marks">[2]</div>
<div class="question_part_label">h.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Predict the number of signals in the <sup>1</sup>H NMR spectrum of urea.</p>
<div class="marks">[1]</div>
<div class="question_part_label">i.</div>
</div>
<br><hr><br><div class="specification">
<p>Menthol is an organic compound containing carbon, hydrogen and oxygen.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Complete combustion of 0.1595 g of menthol produces 0.4490 g of carbon dioxide and 0.1840 g of water. Determine the empirical formula of the compound showing your working.</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>0.150 g sample of menthol, when vaporized, had a volume of 0.0337 dm<sup>3</sup> at 150 °C and 100.2 kPa. Calculate its molar mass showing your working.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">Automobile air bags inflate by a rapid decomposition reaction. One typical compound used is guanidinium nitrate, C(NH<sub>2</sub>)<sub>3</sub>NO<sub>3</sub>, which decomposes very rapidly to form nitrogen, water vapour and carbon.</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Deduce the equation for the decomposition of guanidinium nitrate.</span></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><span style="background-color: #ffffff;">Calculate the total number of moles of gas produced from the decomposition of 10.0 g of guanidinium nitrate.</span></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><span style="background-color: #ffffff;">Calculate the pressure, in kPa, of this gas in a 10.0 dm<sup>3</sup> air bag at 127°C, assuming no gas escapes.</span></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><span style="background-color: #ffffff;">Suggest why water vapour deviates significantly from ideal behaviour when the gases are cooled, while nitrogen does not.</span></p>
<div class="marks">[2]</div>
<div class="question_part_label">a(iv).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Another airbag reactant produces nitrogen gas and sodium.</span></p>
<p><span style="background-color: #ffffff;">Suggest, including an equation, why the products of this reactant present a safety hazard.</span></p>
<div class="marks">[2]</div>
<div class="question_part_label">b.</div>
</div>
<br><hr><br><div class="specification">
<p>Propan-2-ol is a useful organic solvent.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw the structural formula of propan-2-ol.</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 number of hydrogen atoms in 1.00 g of propan-2-ol.</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>Classify propan-2-ol as a primary, secondary or tertiary alcohol, 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>State a suitable oxidizing agent for the oxidation of propan-2-ol in an acidified aqueous solution.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the average oxidation state of carbon in propan-2-ol.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the product of the oxidation of propan-2-ol with the oxidizing agent in (d)(i).</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.iii.</div>
</div>
<br><hr><br><div class="specification">
<p>When heated in air, magnesium ribbon reacts with oxygen to form magnesium oxide.</p>
</div>
<div class="specification">
<p>The reaction in (a)(i) was carried out in a crucible with a lid and the following data was recorded:</p>
<p style="text-align: right;">Mass of crucible and lid = 47.372 ±0.001 g</p>
<p style="text-align: right;">Mass of crucible, lid and magnesium ribbon before heating = 53.726 ±0.001 g</p>
<p style="text-align: right;">Mass of crucible, lid and product after heating = 56.941 ±0.001 g</p>
<p style="text-align: left;"> </p>
</div>
<div class="specification">
<p>When magnesium is burnt in air, some of it reacts with nitrogen to form magnesium nitride according to the equation:</p>
<p style="text-align: center;">3 Mg (s) + N<sub>2 </sub>(g) → Mg<sub>3</sub>N<sub>2 </sub>(s)</p>
</div>
<div class="specification">
<p>The presence of magnesium nitride can be demonstrated by adding water to the product. It is hydrolysed to form magnesium hydroxide and ammonia.</p>
</div>
<div class="specification">
<p>Most nitride ions are <sup>14</sup>N<sup>3–</sup>.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Write a balanced equation for the reaction that occurs.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the block of the periodic table in which magnesium is located.</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>Identify a metal, in the same period as magnesium, that does <strong>not</strong> form a basic oxide.</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>Calculate the amount of magnesium, in mol, that was used.</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 percentage uncertainty of the mass of product after heating.</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>Assume the reaction in (a)(i) is the only one occurring and it goes to completion, but some product has been lost from the crucible. Deduce the percentage yield of magnesium oxide in the crucible.</p>
<p> </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>Evaluate whether this, rather than the loss of product, could explain the yield found in (b)(iii).</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>Suggest an explanation, other than product being lost from the crucible or reacting with nitrogen, that could explain the yield found in (b)(iii).</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>Calculate coefficients that balance the equation for the following reaction.</p>
<p style="text-align:center;">__ Mg<sub>3</sub>N<sub>2 </sub>(s) + __ H<sub>2</sub>O (l) → __ Mg(OH)<sub>2 </sub>(s) + __ NH<sub>3 </sub>(aq)</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the oxidation state of nitrogen in Mg<sub>3</sub>N<sub>2</sub> and in NH<sub>3</sub>.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">d(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce, giving reasons, whether the reaction of magnesium nitride with water is an acid–base reaction, a redox reaction, neither or both.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[2]</div>
<div class="question_part_label">d(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the number of subatomic particles in this ion.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">e(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Some nitride ions are <sup>15</sup>N<sup>3–</sup>. State the term that describes the relationship between <sup>14</sup>N<sup>3–</sup> and <sup>15</sup>N<sup>3–</sup>.</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>The nitride ion and the magnesium ion are isoelectronic (they have the same electron configuration). Determine, giving a reason, which has the greater ionic radius.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest <strong>two</strong> reasons why atoms are no longer regarded as the indivisible units of matter.</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>State the types of bonding in magnesium, oxygen and magnesium oxide, and how the valence electrons produce these types of bonding.</p>
<p><img src="data:image/png;base64,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" width="644" height="367"></p>
<div class="marks">[4]</div>
<div class="question_part_label">g.</div>
</div>
<br><hr><br><div class="specification">
<p>Magnesium is a group 2 metal which exists as a number of isotopes and forms many compounds.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the nuclear symbol notation, <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="{}_Z^AX">
<msubsup>
<mrow>
</mrow>
<mi>Z</mi>
<mi>A</mi>
</msubsup>
<mi>X</mi>
</math></span>, for magnesium-26.</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>Mass spectroscopic analysis of a sample of magnesium gave the following results:</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>Calculate the relative atomic mass, <em>A</em><sub>r</sub>, of this sample of magnesium to two decimal places.</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>Magnesium burns in air to form a white compound, magnesium oxide. Formulate an equation for the reaction of magnesium oxide with water.</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>Describe the trend in acid-base properties of the oxides of period 3, sodium to chlorine.</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>In addition to magnesium oxide, magnesium forms another compound when burned in air. Suggest the formula of this compound</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>Describe the structure and bonding in solid magnesium oxide.</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>Magnesium chloride can be electrolysed.</p>
<p>Deduce the half-equations for the reactions at each electrode when <strong>molten</strong> magnesium chloride is electrolysed, showing the state symbols of the products. The melting points of magnesium and magnesium chloride are 922 K and 987 K respectively.</p>
<p>Anode (positive electrode):</p>
<p>Cathode (negative electrode):</p>
<div class="marks">[2]</div>
<div class="question_part_label">g.</div>
</div>
<br><hr><br><div class="specification">
<p>Biochemical oxygen demand (BOD) can be determined by the Winkler Method.</p>
</div>
<div class="specification">
<p>A 25.00 cm<sup>3</sup> sample of water was treated according to the Winkler Method.</p>
<p style="padding-left: 60px;">Step I: 2Mn<sup>2+ </sup>(aq) + O<sub>2 </sub>(g) + 4OH<sup>− </sup>(aq) → 2MnO<sub>2 </sub>(s) + 2H<sub>2</sub>O (l)</p>
<p style="padding-left: 60px;">Step II: MnO<sub>2 </sub>(s) + 2I<sup>− </sup>(aq) + 4H<sup>+ </sup>(aq) → Mn<sup>2+ </sup>(aq) + I<sub>2 </sub>(aq) + 2H<sub>2</sub>O (l)</p>
<p style="padding-left: 60px;">Step III: 2S<sub>2</sub>O<sub>3</sub><sup>2− </sup>(aq) + I<sub>2 </sub>(aq) → 2I<sup>− </sup>(aq) + S<sub>4</sub>O<sub>6</sub><sup>2− </sup>(aq)</p>
<p>The iodine produced was titrated with 37.50 cm<sup>3</sup> of 5.000 × 10<sup>−4 </sup>mol dm<sup>−3</sup> Na<sub>2</sub>S<sub>2</sub>O<sub>3</sub>.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Outline what is measured by BOD.</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>A student dissolved 0.1240 ± 0.0001 g of Na<sub>2</sub>S<sub>2</sub>O<sub>3</sub> to make 1000.0 ± 0.4 cm<sup>3</sup> of solution to use in the Winkler Method.</p>
<p>Determine the percentage uncertainty in the molar concentration.</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>Calculate the amount, in moles of Na<sub>2</sub>S<sub>2</sub>O<sub>3</sub> used in the titration.</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>Deduce the mole ratio of O<sub>2</sub> consumed in step I to S<sub>2</sub>O<sub>3</sub><sup>2−</sup> used in step III.</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>Calculate the concentration of dissolved oxygen, in mol dm<sup>−3</sup>, in the sample.</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>The three steps of the Winkler Method are redox reactions.</p>
<p>Deduce the reduction half-equation for step II.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c(iv).</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">The following shows some compounds which can be made from ethene, C<sub>2</sub>H<sub>4</sub>.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;">ethene (C<sub>2</sub>H<sub>4</sub>) → C<sub>2</sub>H<sub>5</sub>Cl → C<sub>2</sub>H<sub>6</sub>O → C<sub>2</sub>H<sub>4</sub>O</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">State the type of reaction which converts ethene into C<sub>2</sub>H<sub>5</sub>Cl.</span></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><span style="background-color: #ffffff;">Write an equation for the reaction of C<sub>2</sub>H<sub>5</sub>Cl with aqueous sodium hydroxide to produce a C<sub>2</sub>H<sub>6</sub>O compound, showing structural formulas.</span></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><span style="background-color: #ffffff;">Write an equation for the complete combustion of the organic product in (b).</span></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><span style="background-color: #ffffff;">Determine the enthalpy of combustion of the organic product in (b), in kJ mol<sup>−1</sup>, using data from section 11 of the data booklet.</span></p>
<div class="marks">[3]</div>
<div class="question_part_label">c(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">State the reagents and conditions for the conversion of the compound C<sub>2</sub>H<sub>6</sub>O, produced in (b), into C<sub>2</sub>H<sub>4</sub>O.</span></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><span style="background-color: #ffffff;">Explain why the compound C<sub>2</sub>H<sub>6</sub>O, produced in (b), has a higher boiling point than compound C<sub>2</sub>H<sub>4</sub>O, produced in d(i).</span></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><span style="background-color: #ffffff;">Ethene is often polymerized. Draw a section of the resulting polymer, showing two repeating units.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">This question is about compounds of sodium.</span></p>
</div>
<div class="specification">
<p><span style="background-color: #ffffff;">Sodium peroxide is used in diving apparatus to produce oxygen from carbon dioxide.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;">2Na<sub>2</sub>O<sub>2</sub> (s) + 2CO<sub>2</sub> (g) → 2Na<sub>2</sub>CO<sub>3</sub> (s) + O<sub>2</sub> (g)</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Describe the structure and bonding in solid sodium oxide.</span></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><span style="background-color: #ffffff;">Write equations for the separate reactions of solid sodium oxide and solid phosphorus(V) oxide with excess water and differentiate between the solutions formed. </span></p>
<p><span style="background-color: #ffffff;">Sodium oxide, Na<sub>2</sub>O:<br><br>Phosphorus(V) oxide, P<sub>4</sub>O<sub>10</sub>:<br><br>Differentiation:</span></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><span style="background-color: #ffffff;">Sodium peroxide, Na<sub>2</sub>O<sub>2</sub>, is formed by the reaction of sodium oxide with oxygen.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;">2Na<sub>2</sub>O (s) + O<sub>2</sub> (g) → 2Na<sub>2</sub>O<sub>2</sub> (s)</span></p>
<p><span style="background-color: #ffffff;">Calculate the percentage yield of sodium peroxide if 5.00 g of sodium oxide produces 5.50 g of sodium peroxide.</span></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><span style="background-color: #ffffff;">Determine the enthalpy change, <em>ΔH</em>, in kJ, for this reaction using data from the table and section 12 of the data booklet.</span></p>
<p><span style="background-color: #ffffff;"><img style="margin-right:auto;margin-left:auto;display: block;" src="data:image/png;base64,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" width="219" height="96"></span></p>
<div class="marks">[3]</div>
<div class="question_part_label">c(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Outline why bond enthalpy values are not valid in calculations such as that in (c)(i).</span></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><span style="background-color: #ffffff;">The reaction of sodium peroxide with excess water produces hydrogen peroxide and one other sodium compound. </span><span style="background-color: #ffffff;">Suggest the formula of this compound.</span></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><span style="background-color: #ffffff;">State the oxidation number of carbon in sodium carbonate, Na<sub>2</sub>CO<sub>3</sub>.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p>3.26 g of iron powder are added to 80.0 cm<sup>3</sup> of 0.200 mol dm<sup>−3</sup> copper(II) sulfate solution. The following reaction occurs:</p>
<p style="text-align: center;">Fe (s) + CuSO<sub>4</sub> (aq) → FeSO<sub>4</sub> (aq) + Cu (s)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the limiting reactant showing your working.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The mass of copper obtained experimentally was 0.872 g. Calculate the percentage yield of copper.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The reaction was carried out in a calorimeter. The maximum temperature rise of the solution was 7.5 °C.</p>
<p>Calculate the enthalpy change, Δ<em>H</em>, of the reaction, in kJ, assuming that all the heat released was absorbed by the solution. Use sections 1 and 2 of the data booklet.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State another assumption you made in (b)(i).</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 only significant uncertainty is in the temperature measurement.</p>
<p>Determine the absolute uncertainty in the calculated value of Δ<em>H</em> if the uncertainty in the temperature rise was ±0.2 °C.</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>Sketch a graph of the concentration of iron(II) sulfate, FeSO<sub>4</sub>, against time as the reaction proceeds.</p>
<p><img src="data:image/png;base64,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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>Outline how the initial rate of reaction can be determined from the graph in part (c)(i).</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, using the collision theory, why replacing the iron powder with a piece of iron of the same mass slows down the rate of the reaction.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.iii.</div>
</div>
<br><hr><br><div class="specification">
<p>Two hydrides of nitrogen are ammonia and hydrazine, N<sub>2</sub>H<sub>4</sub>. One derivative of ammonia is methanamine whose molecular structure is shown below.</p>
<p style="text-align: center;"><img src="images/Schermafbeelding_2017-09-22_om_18.03.06.png" alt="M17/4/CHEMI/SP2/ENG/TZ1/04"></p>
</div>
<div class="specification">
<p>Hydrazine is used to remove oxygen from water used to generate steam or hot water.</p>
<p style="text-align: center;">N<sub>2</sub>H<sub>4</sub>(aq) + O<sub>2</sub>(aq) → N<sub>2</sub>(g) + 2H<sub>2</sub>O(l)</p>
<p>The concentration of dissolved oxygen in a sample of water is 8.0 × 10<sup>−3</sup> g<span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="\,">
<mspace width="thinmathspace"></mspace>
</math></span>dm<sup>−3</sup>.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Estimate the H−N−H bond angle in methanamine using VSEPR theory.</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>Ammonia reacts reversibly with water.</p>
<p>NH<sub>3</sub>(g) + H<sub>2</sub>O(l) <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext=" \rightleftharpoons ">
<mo stretchy="false">⇌</mo>
</math></span> NH<sub>4</sub><sup>+</sup>(aq) + OH<sup>−</sup>(aq)</p>
<p>Explain the effect of adding H<sup>+</sup>(aq) ions on the position of the equilibrium.</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>Hydrazine reacts with water in a similar way to ammonia. Deduce an equation for the reaction of hydrazine with water.</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>Outline, using an ionic equation, what is observed when magnesium powder is added to a solution of ammonium chloride.</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>Hydrazine has been used as a rocket fuel. The propulsion reaction occurs in several stages but the overall reaction is:</p>
<p>N<sub>2</sub>H<sub>4</sub>(l) → N<sub>2</sub>(g) + 2H<sub>2</sub>(g)</p>
<p>Suggest why this fuel is suitable for use at high altitudes.</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>Determine the enthalpy change of reaction, Δ<em>H</em>, in kJ, when 1.00 mol of gaseous hydrazine decomposes to its elements. Use bond enthalpy values in section 11 of the data booklet.</p>
<p>N<sub>2</sub>H<sub>4</sub>(g) → N<sub>2</sub>(g) + 2H<sub>2</sub>(g)</p>
<div class="marks">[3]</div>
<div class="question_part_label">f.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The standard enthalpy of formation of N<sub>2</sub>H<sub>4</sub>(l) is +50.6 kJ<span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="\,">
<mspace width="thinmathspace"></mspace>
</math></span>mol<sup>−1</sup>. Calculate the enthalpy of vaporization, Δ<em>H</em><sub>vap</sub>, of hydrazine in kJ<span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="\,">
<mspace width="thinmathspace"></mspace>
</math></span>mol<sup>−1</sup>.</p>
<p>N<sub>2</sub>H<sub>4</sub>(l) → N<sub>2</sub>H<sub>4</sub>(g)</p>
<p>(If you did not get an answer to (f), use −85 kJ but this is not the correct answer.)</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>Calculate, showing your working, the mass of hydrazine needed to remove all the dissolved oxygen from 1000 dm<sup>3</sup> of the sample.</p>
<div class="marks">[3]</div>
<div class="question_part_label">h.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the volume, in dm<sup>3</sup>, of nitrogen formed under SATP conditions. (The volume of 1 mol of gas = 24.8 dm<sup>3</sup> at SATP.)</p>
<div class="marks">[1]</div>
<div class="question_part_label">h.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>Sodium thiosulfate solution reacts with dilute hydrochloric acid to form a precipitate of sulfur at room temperature.</p>
<p style="text-align: center;">Na<sub>2</sub>S<sub>2</sub>O<sub>3</sub> (aq) + 2HCl (aq) → S (s) + SO<sub>2 </sub>(g) + 2NaCl (aq) + X</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the formula and state symbol of X.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why the experiment should be carried out in a fume hood or in a well-ventilated laboratory.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The precipitate of sulfur makes the mixture cloudy, so a mark underneath the reaction mixture becomes invisible with time.</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>10.0 cm<sup>3</sup> of 2.00 mol dm<sup>-3</sup> hydrochloric acid was added to a 50.0 cm<sup>3</sup> solution of sodium thiosulfate at temperature, T1. Students measured the time taken for the mark to be no longer visible to the naked eye. The experiment was repeated at different concentrations of sodium thiosulfate.</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>Show that the hydrochloric acid added to the flask in experiment 1 is in excess.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw the best fit line of <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="\frac{1}{{\rm{t}}}">
<mfrac>
<mn>1</mn>
<mrow>
<mrow>
<mi mathvariant="normal">t</mi>
</mrow>
</mrow>
</mfrac>
</math></span> against concentration of sodium thiosulfate on the axes provided.</p>
<p><img src="data:image/png;base64,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" alt></p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>A student decided to carry out another experiment using 0.075 mol dm<sup>-3</sup> solution of sodium thiosulfate under the same conditions. Determine the time taken for the mark to be no longer visible.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>An additional experiment was carried out at a higher temperature, T<sub>2</sub>.</p>
<p>(i) On the same axes, sketch Maxwell–Boltzmann energy distribution curves at the two temperatures T<sub>1</sub> and T<sub>2</sub>, where T<sub>2 </sub>> T<sub>1</sub>.</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>(ii) Explain why a higher temperature causes the rate of reaction to increase.</p>
<div class="marks">[4]</div>
<div class="question_part_label">f.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest one reason why the values of rates of reactions obtained at higher temperatures may be less accurate.</p>
<div class="marks">[1]</div>
<div class="question_part_label">g.</div>
</div>
<br><hr><br><div class="specification">
<p>Magnetite, Fe<sub>3</sub>O<sub>4</sub>, is another ore of iron that contains both Fe<sup>2+</sup> and Fe<sup>3+</sup>.</p>
</div>
<div class="specification">
<p>Iron exists as several isotopes.</p>
</div>
<div class="specification">
<p>In acidic solution, hydrogen peroxide, H<sub>2</sub>O<sub>2</sub>, will oxidize Fe<sup>2+</sup>.</p>
<p style="text-align: center;">Fe<sup>2+</sup> (aq) → Fe<sup>3+</sup> (aq) + e<sup>−</sup></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the ratio of Fe<sup>2+</sup>:Fe<sup>3+</sup> in Fe<sub>3</sub>O<sub>4</sub>.</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>State the type of spectroscopy that could be used to determine their relative abundances.</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>State the number of protons, neutrons and electrons in each species.</p>
<p><img src="data:image/png;base64,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" width="502" height="151"></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>Iron has a relatively small specific heat capacity; the temperature of a 50 g sample rises by 44.4°C when it absorbs 1 kJ of heat energy.</p>
<p>Determine the specific heat capacity of iron, in J g<sup>−1 </sup>K<sup>−1</sup>. Use section 1 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>Write the half-equation for the reduction of hydrogen peroxide to water in acidic solution.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce a balanced equation for the oxidation of Fe2+ by acidified hydrogen peroxide.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(ii).</div>
</div>
<br><hr><br><div class="specification">
<p>White phosphorus is an allotrope of phosphorus and exists as P<sub>4</sub>.</p>
</div>
<div class="specification">
<p>An equilibrium exists between PCl<sub>3</sub> and PCl<sub>5</sub>.</p>
<p style="text-align: center;">PCl<sub>3 </sub>(g) + Cl<sub>2 </sub>(g) <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mo>⇌</mo></math> PCl<sub>5 </sub>(g)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Sketch the Lewis (electron dot) structure of the P<sub>4</sub> molecule, containing only single bonds.</p>
<p> </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>Write an equation for the reaction of white phosphorus (P<sub>4</sub>) with chlorine gas to form phosphorus trichloride (PCl<sub>3</sub>).</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>Deduce the electron domain and molecular geometry using VSEPR theory, and estimate the Cl–P–Cl bond angle in PCl<sub>3</sub>.</p>
<p><img src="data:image/png;base64,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"></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>Explain the polarity of PCl<sub>3</sub>.</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>Calculate the standard enthalpy change (<em>ΔH</em><sup>⦵</sup>) for the forward reaction in kJ mol<sup>−1</sup>.</p>
<p style="text-align:center;"><em>ΔH</em><sup>⦵</sup><sub>f</sub> PCl<sub>3 </sub>(g) = −306.4 kJ mol<sup>−1</sup></p>
<p style="text-align:center;"><em>ΔH</em><sup>⦵</sup><sub>f</sub> PCl<sub>5 </sub>(g) = −398.9 kJ mol<sup>−1</sup></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>State the equilibrium constant expression,<em> K</em><sub>c</sub>, for this reaction.</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>State, with a reason, the effect of an increase in temperature on the position of this equilibrium.</p>
<div class="marks">[1]</div>
<div class="question_part_label">c(iii).</div>
</div>
<br><hr><br><div class="specification">
<p>Titanium is a transition metal.</p>
</div>
<div class="specification">
<p>TiCl<sub>4</sub> reacts with water and the resulting titanium(IV) oxide can be used as a smoke screen.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Describe the bonding in metals.</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>Titanium exists as several isotopes. The mass spectrum of a sample of titanium gave the following data:</p>
<p><img src="data:image/png;base64,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"></p>
<p>Calculate the relative atomic mass of titanium to two decimal places.</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>State the number of protons, neutrons and electrons in the <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="{}_{22}^{48}{\text{Ti}}">
<msubsup>
<mrow>
</mrow>
<mrow>
<mn>22</mn>
</mrow>
<mrow>
<mn>48</mn>
</mrow>
</msubsup>
<mrow>
<mtext>Ti</mtext>
</mrow>
</math></span> atom.</p>
<p><img src="data:image/png;base64,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"></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>State the full electron configuration of the <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="{}_{22}^{48}{\text{Ti}}">
<msubsup>
<mrow>
</mrow>
<mrow>
<mn>22</mn>
</mrow>
<mrow>
<mn>48</mn>
</mrow>
</msubsup>
<mrow>
<mtext>Ti</mtext>
</mrow>
</math></span><sup>2+</sup> ion.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain why an aluminium-titanium alloy is harder than pure aluminium.</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>State the type of bonding in potassium chloride which melts at 1043 K.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>A chloride of titanium, TiCl<sub>4</sub>, melts at 248 K. Suggest why the melting point is so much lower than that of KCl.</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>Formulate an equation for this reaction.</p>
<div class="marks">[2]</div>
<div class="question_part_label">f.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest <strong>one</strong> disadvantage of using this smoke in an enclosed space.</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>An acidic sample of a waste solution containing Sn<sup>2+</sup>(aq) reacted completely with K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub> solution to form Sn<sup>4+</sup>(aq).</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the oxidation half-equation.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Deduce the overall redox equation for the reaction between acidic Sn<sup>2+</sup>(aq) and Cr<sub>2</sub>O<sub>7</sub><sup>2–</sup>(aq), using section 24 of the data booklet.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the percentage uncertainty for the mass of K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub>(s) from the given data.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The sample of K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub>(s) in (i) was dissolved in distilled water to form 0.100 dm<sup>3 </sup>solution. Calculate its molar concentration.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>10.0 cm<sup>3</sup> of the waste sample required 13.24 cm<sup>3</sup> of the K<sub>2</sub>Cr<sub>2</sub>O<sub>7</sub> solution. Calculate the molar concentration of Sn<sup>2+</sup>(aq) in the waste sample.</p>
<div class="marks">[2]</div>
<div class="question_part_label">b.iii.</div>
</div>
<br><hr><br><div class="specification">
<p>Chlorine undergoes many reactions.</p>
</div>
<div class="specification">
<p><span class="fontstyle0"><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mn>2</mn><mo>.</mo><mn>67</mn><mo> </mo><mi mathvariant="normal">g</mi></math> of manganese(IV) oxide was added to </span><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mn>200</mn><mo>.</mo><mn>0</mn><mo> </mo><msup><mi>cm</mi><mn>3</mn></msup></math> <span class="fontstyle0">of </span><math class="wrs_chemistry" xmlns="http://www.w3.org/1998/Math/MathML"><mn>2</mn><mo>.</mo><mn>00</mn><mo> </mo><mi>mol</mi><mo> </mo><msup><mi>dm</mi><mrow><mo>-</mo><mn>3</mn></mrow></msup><mo> </mo><mi>HCl</mi></math>.</p>
<p style="text-align: center;"><math class="wrs_chemistry" xmlns="http://www.w3.org/1998/Math/MathML"><msub><mi>MnO</mi><mn>2</mn></msub><mo> </mo><mo>(</mo><mi mathvariant="normal">s</mi><mo>)</mo><mo>+</mo><mn>4</mn><mi>HCl</mi><mo> </mo><mo>(</mo><mi>aq</mi><mo>)</mo><mo>→</mo><msub><mi>Cl</mi><mn>2</mn></msub><mo> </mo><mo>(</mo><mi mathvariant="normal">g</mi><mo>)</mo><mo>+</mo><mn>2</mn><msub><mi mathvariant="normal">H</mi><mn>2</mn></msub><mi mathvariant="normal">O</mi><mo> </mo><mo>(</mo><mi mathvariant="normal">l</mi><mo>)</mo><mo>+</mo><msub><mi>MnCl</mi><mn>2</mn></msub><mo> </mo><mo>(</mo><mi>aq</mi><mo>)</mo></math></p>
</div>
<div class="specification">
<p>Chlorine gas reacts with water to produce hypochlorous acid and hydrochloric acid.</p>
<p style="text-align: center;"><math class="wrs_chemistry" xmlns="http://www.w3.org/1998/Math/MathML"><msub><mi>Cl</mi><mn>2</mn></msub><mo> </mo><mo>(</mo><mi mathvariant="normal">g</mi><mo>)</mo><mo>+</mo><msub><mi mathvariant="normal">H</mi><mn>2</mn></msub><mi mathvariant="normal">O</mi><mo> </mo><mo>(</mo><mi mathvariant="normal">l</mi><mo>)</mo><mo>⇌</mo><mi>HClO</mi><mo> </mo><mo>(</mo><mi>aq</mi><mo>)</mo><mo>+</mo><mi>HCl</mi><mo> </mo><mo>(</mo><mi>aq</mi><mo>)</mo></math></p>
</div>
<div class="specification">
<p><span class="fontstyle0"><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><msub><mi>CCl</mi><mn>2</mn></msub><msub><mi mathvariant="normal">F</mi><mn>2</mn></msub></math> </span><span class="fontstyle0">is a common chlorofluorocarbon, <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mi>CFC</mi></math>.</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">State the full electron configuration of the chlorine atom.</span></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><span class="fontstyle0">State, giving a reason, whether the chlorine atom or the chloride ion has a larger radius</span>.</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><span class="fontstyle0">Outline why the chlorine atom has a smaller atomic radius than the sulfur atom</span>.</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><span class="fontstyle0">The mass spectrum of chlorine is shown.</span></p>
<p><span class="fontstyle0"><img style="display: block;margin-left:auto;margin-right:auto;" src="data:image/png;base64,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"></span></p>
<p style="text-align: center;"><span class="fontstyle0"><em> NIST Mass Spectrometry Data Center Collection © 2014 copyright by the U.S. Secretary of Commerce on behalf of </em><em>the United States of America. All rights reserved.</em><br> </span></p>
<p><span class="fontstyle0"> Outline the reason for the two peaks at <math xmlns="http://www.w3.org/1998/Math/MathML"><mi>m</mi><mo>/</mo><mi>z</mi><mo>=</mo><mn>35</mn></math> and <math xmlns="http://www.w3.org/1998/Math/MathML"><mn>37</mn></math>.<br> </span></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><span class="fontstyle0">Explain the presence and relative abundance of the peak at </span><math xmlns="http://www.w3.org/1998/Math/MathML"><mi>m</mi><mo>/</mo><mi>z</mi><mo>=</mo><mn>74</mn></math><span class="fontstyle0">.</span></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><span class="fontstyle0">Calculate the amount, in <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mi>mol</mi></math>, of manganese(IV) oxide added.</span></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><span class="fontstyle0">Determine the limiting reactant, showing your calculations.</span></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><span class="fontstyle0">Determine the excess amount, in <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mi>mol</mi></math>, of the other reactant.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">b(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Calculate the volume of chlorine, in </span><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><msup><mi>dm</mi><mn>3</mn></msup></math><span class="fontstyle0">, produced if the reaction is conducted at standard temperature and pressure (STP). Use section 2 of the data booklet.</span></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><span class="fontstyle0">State the oxidation state of manganese in <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><msub><mi>MnO</mi><mn>2</mn></msub></math></span><span class="fontstyle0"> </span><span class="fontstyle0">and </span><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><msub><mi>MnCl</mi><mn>2</mn></msub></math><span class="fontstyle0">.</span></p>
<p><img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAv0AAADFCAYAAADHcE39AAAWfUlEQVR4Ae3di5eXdZ0H8P4URmcGBhoXJMC01YU9KmZ4YcsLtoIXKDddEfOktidRytxNT7YYmIZp2NHazOSYFyTMS162NuxmJt6ooI0wBEQuc3nvGS76G2dkFvV5nuH3vDhnznl+v3l+z+f5vj6fOec9zzy/Hx+IfwQIECBAgAABAgQINLXAB5p6dRZHgAABAgQIECBAgECEfkNAgAABAgQIECBAoMkFhP4mb7DlESBAgAABAgQIEBD6zQABAgQIECBAgACBJhcYEPr/5+c/z39cc40vBmbADJgBM2AGzIAZMANm4ACYgQ0bNgz5K8uA0P+1r16fSy7+bBYvWuSLgRkwA2bADJgBM2AGzIAZGMYzMOvMM/PkE0/sf+hfcOWVuWXJkiFfaAcCBAgQIECAAAECBKoVOGfWWVn54x8PeRIDrvQL/UOa2YEAAQIECBAgQIDAsBAQ+odFG5wEAQIECBAgQIAAgeIEhP7ibB2ZAAECBAgQIECAwLAQEPqHRRucBAECBAgQIECAAIHiBIT+4mwdmQABAgQIECBAgMCwEBD6h0UbnAQBAgQIECBAgACB4gSE/uJsHZkAAQIECBAgQIDAsBAQ+odFG5wEAQIECBAgQIAAgeIEhP7ibB2ZAAECBAgQIECAwLAQEPqHRRucBAECBAgQIECAAIHiBIT+4mwdmQABAgQIECBAgMCwEBD6h0UbnAQBAgQIECBAgACB4gSE/uJsHZkAAQIECBAgQIDAsBAQ+odFG5wEAQIECBAgQIAAgeIEhP7ibB2ZAAECBAgQIECAwLAQEPqHRRucBAECBAgQIECAAIHiBIT+4mwdmQABAgQIECBAgMCwEBD6h0UbnAQBAgQIECBAgACB4gTqEfq7V2fRx9rSOuKgTJz3UF4fxLPnj7dmRntLWltPzs0vdw+yx76f2rn+v3PHlXMy/YixGdM2MuMPn5qZn7sxK1ZvSe++X+q7BAgQIECAAAECBAoVqFXo7zhySiZ/aF5WDEj9PfnDktMzdcpRGfkuQv+WXy7KjL8blaP/9Vt57IVXs23n9mxeuyrLvnx6JrV/JBct+1O6Cm2jgxMgQIAAAQIECBB4Z4Fahf7OTy3IF46ckIsf3NJfpGdNlpxybOYvODej9zf0b3okl048KP9w+WN5bcAl/R156ZbT0tl+Ur75gtjfH90jAgQIECBAgACBsgTqFfrP/2FWfv7wTJy7PI2xv/ulm3LK5Cvz6F3nNYT+rvxs/oSMOX9pHl54fk6YNCYd7WNz9JlX54E1O/b0pyfrvv2JtLf/c/5r/YDEv3ufHT/LFz/ckomX/TTb9tHV7t9el38c0ZZP39t4Zvt4gW8RIECAAAECBAgQ+H8K1Cz035eNKy/JYeMvyvI3s3V3Xlp8co66/NFsXDYw9Le2dOT4y+7J717dlu0bVmXxqZ3pmHZTXunpE34t95zdlrZpN+95PJj6jjz+uUPS+uGr88z+v1VgsAN6jgABAgQIECBAgMB+CdQs9N+f7Zvvz9yx4zNv7y0+3auz+IRJuWTF1rwxWOjvnJeH33jLdNuDF2RM28zc9Wpv0vN8bjimJaNm/6jfXw7e2rtvqyerFx6b1tZP574B7yXov6dHBAgQIECAAAECBIoQqF/o792Ye+YckgkXPpDNSbp/vzAnjr8g92/uHTT0j3rzqv5u/q6nrsiEtk/k9nU9Sc9z+c8pLek474E0/F7wtj715PmvHSP0v03FQwIECBAgQIAAgfIE6hf605u/3jkrnePm5sHNXXnu+o/m0Nl3Z2NvBg39HdNvzdpdt/LsbkrX01dkYtvHs3TXkxtz96y2tJ18a/7UsE//9u3ITy89JK2HfSmr3N7Tn8YjAgQIECBAgACBUgRqGPqTnrW35YyR43LRvU/n+qmdOfu763d9lv5gt/fsO/T3ZN3SUzJqn2/k/UW+dHhLJl76+D7fyFtKtxUhQIAAAQIECBCopUAtQ396XsmS6SMz7rhpmdIxI0v7btXJu7nSn2TLo/n8pIPykUt+suuvBf2naEdeXHJqPth+Ur6x5yM7ezc8lutOPyKHtI/JkWd8NU/2/YnBPwIECBAgQIAAAQIFCtQz9Kc7zy+cllEjWtIx/a1P3tn/K/27O/P6L7+eGYd05Ji5t+XJl1/L9q6d2fqX3+b+6z6Zw9o/krn37P3PubqzetFpOXPRb7Jx61/y+JUfy4xvrsk73hlUYOMdmgABAgQIECBAoD4CNQ39Sdevr83Ug9ty4g2rs/dW+3cb+vvGZef6p/Od+efmpA8fklEtI3PoYVMz67Ibs+KFLbtuHRo4Ur1Zf8fsnPPtdbtCv8/pHyjkGQIECBAgQIAAgfdHoB6h//2xel+Psv2FO3PhGQvy001u73lfYR2MAAECBAgQIEBggIDQP4Ck6Cd6s+kX38hnZs7PQ2u7ii7m+AQIECBAgAABAgQi9Jc8BDuevzXnz/l6nnGFv2R55QgQIECAAAEC9RUQ+kvt/dasuGhc2ka0pHXXV2uOvuaZuN5fahMUI0CAAAECBAjUTkDor13LLZgAAQIECBAgQKBuAkJ/3TpuvQQIECBAgAABArUTEPpr13ILJkCAAAECBAgQqJuA0F+3jlsvAQIECBAgQIBA7QSE/tq13IIJECBAgAABAgTqJiD0163j1kuAAAECBAgQIFA7AaG/di23YAIECBAgQIAAgboJCP1167j1EiBAgAABAgQI1E5A6K9dyy2YAAECBAgQIECgbgJCf906br0ECBAgQIAAAQK1ExD6a9dyCyZAgAABAgQIEKibgNBft45bLwECBAgQIECAQO0EhP7atdyCCRAgQIAAAQIE6iYg9Net49ZLgAABAgQIECBQOwGhv3Ytt2ACBAgQIECAAIG6CQj9deu49RIgQIAAAQIECNROQOivXcstmAABAgQIECBAoG4CQn/dOm69BAgQIECAAAECtRMQ+mvXcgsmQIAAAQIECBCom4DQX7eOWy8BAgQIECBAgEDtBIT+2rXcggkQIECAAAECBOomIPTXrePWS4AAAQIECBAgUDsBob92LbdgAgQIECBAgACBugkI/XXruPUSIECAAAECBAjUTqCGob87z143Oa2t52bZpnfqt334mI2BAn4u/FwMnIrdz5gNs2E2Bgr4uajnz8XASRguz9Qw9A8XeudBgAABAgQIECBAoBwBob8cZ1UIECBAgAABAgQIVCYg9FdGrzABAgQIECBAgACBcgSE/nKcVSFAgAABAgQIECBQmYDQXxm9wgQIECBAgAABAgTKERD6y3FWhQABAgQIECBAgEBlAkJ/ZfQKEyBAgAABAgQIEChHQOgvx1kVAgQIECBAgAABApUJCP2V0StMgAABAgQIECBAoBwBob8cZ1UIECBAgAABAgQIVCYg9FdGrzABAgQIECBAgACBcgSE/nKcVSFAgAABAgQIECBQmYDQXxm9wgQIECBAgAABAgTKERD6y3FWhQABAgQIECBAgEBlAkJ/ZfQKEyBAgAABAgQIEChHQOgvx1kVAgQIECBAgAABApUJCP2V0StMgAABAgQIECBAoBwBob8cZ1UIECBAgAABAgQIVCYg9FdGrzABAgQIECBAgACBcgSE/nKcVSFAgAABAgQIECBQmYDQXxm9wgQIECBAgAABAgTKERD6y3FWhQABAgQIECBAgEBlAkJ/ZfQKEyBAgAABAgQIEChHQOgvx1kVAgQIECBAgAABApUJCP2V0StMgAABAgQIECBAoBwBob8cZ1UIECBAgAABAgQIVCYg9FdGrzABAgQIECBAgACBcgSE/nKcVSFAgAABAgQIECBQmYDQXxm9wgQIECBAgAABAgTKERD6y3FWhQABAgQIECBAgEBlAkJ/ZfQKEyBAgAABAgQIEChHQOgvx1kVAgQIECBAgAABApUJCP2V0StMgAABAgQIECBAoBwBob8cZ1UIECBAgAABAgQIVCYg9FdGrzABAgQIECBAgACBcgSE/nKcVSFAgAABAgQIECBQmYDQXxm9wgQIECBAgAABAgTKERD6y3FWhQABAgQIECBAgEBlAkJ/ZfQKEyBAgAABAgQIEChHQOgvx1kVAgQIECBAgAABApUJCP2V0StMgAABAgQIECBAoBwBob8cZ1UIECBAgAABAgQIVCYg9FdGrzABAgQIECBAgACBcgSE/nKcVSFAgAABAgQIECBQmYDQXxm9wgQIECBAgAABAgTKERD6y3FWhQABAgQIECBAgEBlAkJ/ZfQKEyBAgAABAgQIEChHQOgvx1kVAgQIECBAgAABApUJ1CP0d6/Ooo+1pXXEQZk476G8Pgh3zx9vzYz2lrS2npybX+4eZI99P7V97RO5/ao5mf734/PB1rZ0fuiYzLr8ljzx5x1vvbDn5dx0fEtGz3skXW89a4sAAQIECBAgQIBAoQK1Cv0dR07J5A/Ny4oBqb8nf1hyeqZOOSoj9zv09+a1J6/OCR1jc8oXl+VXf349XT07s3nNk7ll9uFpHzszd7y4J/gL/YUOs4MTIECAAAECBAgMLlCr0N/5qQX5wpETcvGDW/pr9KzJklOOzfwF52b0fob+3r89kAvHtWXqNavyRv+jJtt/lWunHJQxM+7Iup4kQv/bhTwmQIAAAQIECBAoQaBeof/8H2bl5w/PxLnL0xj7u1+6KadMvjKP3nVeQ+jvys/mT8iY85fm4YXn54RJY9LRPjZHn3l1Hliz95adnqxZclLa2s/K3a/2DtKu3mx46vv5/orn8tp+hf7uPHvd5LS2zsl9jSc6SAVPESBAgAABAgQIEBhKoGah/75sXHlJDht/UZa/Gaa789Lik3PU5Y9m47KBob+1pSPHX3ZPfvfqtmzfsCqLT+1Mx7Sb8kpfiM/G3D2rLW0nfHPP4yG4XekfAsi3CRAgQIAAAQIEihCoWei/P9s335+5Y8dn3t5bfLpXZ/EJk3LJiq15Y7DQ3zkvDzfct7PtwQsypm1m7uq7st+zOouObcmoOT/q95eDd2yU0P+ONL5BgAABAgQIECBQnED9Qn/vxtwz55BMuPCBbE7S/fuFOXH8Bbl/c++goX/Um1f1dzeh66krMqHtE7m97yb9nhez+LiWjJp9r9Bf3Iw6MgECBAgQIECAwHsUqF/oT2/+euesdI6bmwc3d+W56z+aQ2ffnY29GTT0d0y/NWt33cqzW7rr6Ssyse3jWbrryS25b87ItL3tF4N+Pdm5PTv2vt6V/n40HhAgQIAAAQIECJQjUMPQn/SsvS1njByXi+59OtdP7czZ312fvrfhDnZ7z75Df2/+fPtpGdU+Mz/YMPgbef/3O6dnzKHnZdn6vtuBfE5/OWOtCgECBAgQIECAQKNALUN/el7JkukjM+64aZnSMSNLd32e5rsJ/UleW56Lxh6cqf/+TLY1yvZtb1uVr0xpyejTvrPnIzvXZMkJLRl94crs/vyf3mx47Np88ogxGT36iJz51Sd2/cXh7YfxmAABAgQIECBAgMB7Eahn6E93nl84LaNGtKRj+s1vfvLO/l/p76PvzYaVl2ZK+7icetUP8ou1m7Oja3v+9vyKfO2M8Wk79Jx87+W9///utjz22bFpnXhhlq3Zlp6+NxGf+snc+JuN2fqXx7Lg+NOyZM3ee4HeS1u9lgABAgQIECBAgMBbAjUN/UnXr6/N1IPbcuINq9O9x+Pdhf6+F/dk87N35yuf+adMGTsqbSMOTueEY3PWv92Wp9fvfEu7b88NT+WGOcdlUufsLNvU8K3e9fnu7LP2/NXB5/Q3yNgkQIAAAQIECBB4jwL1CP3vEan4l2/Pi3dekDOvejybBntrQPEnoAIBAgQIECBAgEATCwj9VTe3d1NW3Xhezp6/POv23gVU9TmpT4AAAQIECBAg0FQCQn+l7dyR57/1Lznv66uy2RX+SjuhOAECBAgQIECgmQWE/iq7u/WhXDz2oLSOaNn9dfCUfOUZl/urbInaBAgQIECAAIFmFBD6m7Gr1kSAAAECBAgQIECgQUDob8CwSYAAAQIECBAgQKAZBYT+ZuyqNREgQIAAAQIECBBoEBD6GzBsEiBAgAABAgQIEGhGAaG/GbtqTQQIECBAgAABAgQaBIT+BgybBAgQIECAAAECBJpRQOhvxq5aEwECBAgQIECAAIEGAaG/AcMmAQIECBAgQIAAgWYUEPqbsavWRIAAAQIECBAgQKBBQOhvwLBJgAABAgQIECBAoBkFhP5m7Ko1ESBAgAABAgQIEGgQEPobMGwSIECAAAECBAgQaEYBob8Zu2pNBAgQIECAAAECBBoEhP4GDJsECBAgQIAAAQIEmlFA6G/GrloTAQIECBAgQIAAgQYBob8BwyYBAgQIECBAgACBZhQQ+puxq9ZEgAABAgQIECBAoEFA6G/AsEmAAAECBAgQIECgGQWE/mbsqjURIECAAAECBAgQaBAQ+hswbBIgQIAAAQIECBBoRgGhvxm7ak0ECBAgQIAAAQIEGgSE/gYMmwQIECBAgAABAgSaUUDob8auWhMBAgQIECBAgACBBgGhvwHDJgECBAgQIECAAIFmFBD6m7Gr1kSAAAECBAgQIECgQaCGob87z143Oa2t52bZpgaJfpv24dNvIBoemA2z0TAO/TbNhtnoNxAND8yG2WgYh36bZqP5ZqNfg4fVgxqG/mHl72QIECBAgAABAgQIFC4g9BdOrAABAgQIECBAgACBagWE/mr9VSdAgAABAgQIECBQuIDQXzixAgQIECBAgAABAgSqFRD6q/VXnQABAgQIECBAgEDhAkJ/4cQKECBAgAABAgQIEKhWQOiv1l91AgQIECBAgAABAoULCP2FEytAgAABAgQIECBAoFoBob9af9UJECBAgAABAgQIFC4g9BdOrAABAgQIECBAgACBagWE/mr9VSdAgAABAgQIECBQuIDQXzixAgQIECBAgAABAgSqFRD6q/VXnQABAgQIECBAgEDhAkJ/4cQKECBAgAABAgQIEKhWQOiv1l91AgQIECBAgAABAoULCP2FEytAgAABAgQIECBAoFoBob9af9UJECBAgAABAgQIFC4g9BdOrAABAgQIECBAgACBagWE/mr9VSdAgAABAgQIECBQuIDQXzixAgQIECBAgAABAgSqFRD6q/VXnQABAgQIECBAgEDhAkJ/4cQKECBAgAABAgQIEKhWQOiv1l91AgQIECBAgAABAoULCP2FEytAgAABAgQIECBAoFoBob9af9UJECBAgAABAgQIFC4g9BdOrAABAgQIECBAgACBagWE/mr9VSdAgAABAgQIECBQuIDQXzixAgQIECBAgAABAgSqFRD6q/VXnQABAgQIECBAgEDhAu869F9z9ZfzxauuyorlD/liYAbMgBkwA2bADJgBM2AGhvEMnDNzVh75ySND/nLxgbfv8eMVKzLnnHN9MTADZsAMmAEzYAbMgBkwAwfADKxbt+7tkX7A4wGhf8AeniBAgAABAgQIECBA4IAWEPoP6PY5eQIECBAgQIAAAQJDCwj9QxvZgwABAgQIECBAgMABLSD0H9Dtc/IECBAgQIAAAQIEhhYQ+oc2sgcBAgQIECBAgACBA1pA6D+g2+fkCRAgQIAAAQIECAwtIPQPbWQPAgQIECBAgAABAge0gNB/QLfPyRMgQIAAAQIECBAYWkDoH9rIHgQIECBAgAABAgQOaIH/A187rvwfet5DAAAAAElFTkSuQmCC" width="699" height="180"></p>
<div class="marks">[2]</div>
<div class="question_part_label">b(v).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Deduce, referring to oxidation states, whether </span><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><msub><mi>MnO</mi><mn>2</mn></msub></math> <span class="fontstyle0">is an oxidizing or reducing agent.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">b(vi).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Hypochlorous acid is considered a weak acid. Outline what is meant by the term weak acid.</span></p>
<p> </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><span class="fontstyle0">State the formula of the conjugate base of hypochlorous acid.</span></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><span class="fontstyle0">Calculate the concentration of </span><math class="wrs_chemistry" xmlns="http://www.w3.org/1998/Math/MathML"><msup><mi mathvariant="normal">H</mi><mo>+</mo></msup><mo> </mo><mo>(</mo><mi>aq</mi><mo>)</mo></math><span class="fontstyle0"> in a </span><math class="wrs_chemistry" xmlns="http://www.w3.org/1998/Math/MathML"><mi>HClO</mi><mo> </mo><mfenced><mi>aq</mi></mfenced></math><span class="fontstyle0"> solution with a </span><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mi>pH</mi><mo>=</mo><mn>3</mn><mo>.</mo><mn>61</mn></math>.</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><span class="fontstyle0">State the type of reaction occurring when ethane reacts with chlorine to produce chloroethane.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">d(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Predict, giving a reason, whether ethane or chloroethane is more reactive.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">d(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Write the equation for the reaction of chloroethane with a dilute aqueous solution of sodium hydroxide.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">d(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Deduce the nucleophile for the reaction in d(iii).</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">d(iv).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Ethoxyethane (diethyl ether) can be used as a solvent for this conversion. Draw the structural formula of ethoxyethane</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">d(v).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Deduce the number of signals and their chemical shifts in the </span><math class="wrs_chemistry" xmlns="http://www.w3.org/1998/Math/MathML"><mmultiscripts><mi mathvariant="normal">H</mi><mprescripts></mprescripts><mn>1</mn></mmultiscripts><mo> </mo><mi>NMR</mi></math> <span class="fontstyle0">spectrum of ethoxyethane. Use section 27 of the data booklet.</span></p>
<div class="marks">[2]</div>
<div class="question_part_label">d(vi).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span class="fontstyle0">Calculate the percentage by mass of chlorine in </span><math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><msub><mi>CCl</mi><mn>2</mn></msub><msub><mi mathvariant="normal">F</mi><mn>2</mn></msub></math><span class="fontstyle0">.</span></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><span class="fontstyle0">Comment on how international cooperation has contributed to the lowering of <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mi>CFC</mi></math> emissions responsible for ozone depletion.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">e(ii).</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">The biochemical oxygen demand of a water sample can be determined by the following series of reactions. The final step is titration of the sample with sodium thiosulfate solution, Na<sub>2</sub>S<sub>2</sub>O<sub>3</sub> (aq).</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">2Mn<sup>2+</sup> (aq) + O<sub>2</sub> (aq) + 4OH<sup>−</sup> (aq) → 2MnO<sub>2</sub> (s) + 2H<sub>2</sub>O (l)</span></span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">MnO<sub>2</sub> (s) + 2I<sup>−</sup> (aq) + 4H<sup>+</sup> (aq) → Mn<sup>2+</sup> (aq) + I<sub>2</sub> (aq) + 2H<sub>2</sub>O (l)<br></span></span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">2S<sub>2</sub>O<sub>3</sub><sup>2−</sup> (aq) + I<sub>2</sub> (aq) → 2I<sup>−</sup> (aq) + S<sub>4</sub>O<sub>6</sub><sup>2−</sup> (aq)</span></span></p>
<p style="text-align: left;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">A student analysed two 300.0 cm<sup>3</sup> samples of water taken from the school pond: one immediately (day 0), and the other after leaving it sealed in a dark cupboard for five days (day 5). The following results were obtained for the titration of the samples with 0.0100 mol dm<sup>−3</sup> Na<sub>2</sub>S<sub>2</sub>O<sub>3</sub> (aq).</span></span></span></p>
<p style="text-align: left;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><img style="margin-right: auto; margin-left: auto; display: block;" src="data:image/png;base64,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" width="279" height="120"></span></span></span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Determine the mole ratio of S<sub>2</sub>O<sub>3</sub><sup>2−</sup> to O<sub>2</sub>, using the balanced equations.</span></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><span style="background-color: #ffffff;">Calculate the number of moles of oxygen in the day 0 sample.</span></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><span style="background-color: #ffffff;">The day 5 sample contained 5.03 × 10<sup>−5</sup> moles of oxygen.<br></span></p>
<p><span style="background-color: #ffffff;">Determine the 5-day biochemical oxygen demand of the pond, in mg dm<sup>−3</sup> (“parts per million”, ppm).</span></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><span style="background-color: #ffffff;">Calculate the percentage uncertainty of the day 5 titre.</span></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><span style="background-color: #ffffff;">Suggest a modification to the procedure that would make the results more reliable.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">b(ii).</div>
</div>
<br><hr><br><div class="specification">
<p>Lithium reacts with water to form an alkaline solution.</p>
</div>
<div class="specification">
<p>A 0.200 g piece of lithium was placed in 500.0 cm<sup>3</sup> of water.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the coefficients that balance the equation for the reaction of lithium with water.</p>
<p style="text-align:left;"><img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the molar concentration of the resulting solution of lithium hydroxide.</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>Calculate the volume of hydrogen gas produced, in cm<sup>3</sup>, if the temperature was 22.5 °C and the pressure was 103 kPa. Use sections 1 and 2 of the data booklet.</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>Suggest a reason why the volume of hydrogen gas collected was smaller than predicted.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The reaction of lithium with water is a redox reaction. Identify the oxidizing agent in the reaction 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>Describe two observations that indicate the reaction of lithium with water is exothermic.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>Hydrogen peroxide can react with methane and oxygen to form methanol. This reaction can occur below 50°C if a gold nanoparticle catalyst is used.</p>
</div>
<div class="specification">
<p>Methanol is usually manufactured from methane in a two-stage process.</p>
<p style="text-align: center;">CH<sub>4 </sub>(g) + H<sub>2</sub>O (g) <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mo>⇌</mo></math> CO (g) + 3H<sub>2 </sub>(g)<br>CO (g) + 2H<sub>2 </sub>(g) <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mo>⇌</mo></math> CH<sub>3</sub>OH (l)</p>
</div>
<div class="specification">
<p>Consider the first stage of the reaction.</p>
<p style="text-align: center;">CH<sub>4 </sub>(g) + H<sub>2</sub>O (g) <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mo>⇌</mo></math> CO (g) + 3H<sub>2 </sub>(g)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The diagram shows the Maxwell-Boltzmann curve for the uncatalyzed reaction.</p>
<p>Draw a distribution curve at a lower temperature (T<sub>2</sub>) <strong>and</strong> show on the diagram how the addition of a catalyst enables the reaction to take place more rapidly than at T<sub>1</sub>.</p>
<p><img style="display:block;margin-left:auto;margin-right:auto;" src="data:image/png;base64,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" width="486" height="385"></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>The hydrogen peroxide could cause further oxidation of the methanol. Suggest a possible oxidation product.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the overall equation for the production of methanol.</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>8.00 g of methane is completely converted to methanol. Calculate, to three significant figures, the final volume of hydrogen at STP, in dm<sup>3</sup>. Use sections 2 and 6 of the data booklet.</p>
<div class="marks">[3]</div>
<div class="question_part_label">c(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the enthalpy change, Δ<em>H</em>, in kJ. Use section 11 of the data booklet.</p>
<p>Bond enthalpy of CO = 1077 kJ mol<sup>−1</sup>.</p>
<div class="marks">[3]</div>
<div class="question_part_label">d(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the expression for <em>K</em><sub>c</sub> for this stage of the reaction.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State and explain the effect of increasing temperature on the value of <em>K<sub>c</sub></em>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(iii).</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">The thermal decomposition of dinitrogen monoxide occurs according to the equation:</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;">2N<sub>2</sub>O (g) → 2N<sub>2</sub> (g) + O<sub>2</sub> (g)</span></p>
<p><span style="background-color: #ffffff;">The reaction can be followed by measuring the change in total pressure, at constant temperature, with time.</span></p>
<p><span style="background-color: #ffffff;">The x-axis and y-axis are shown with arbitrary units.</span></p>
<p><span style="background-color: #ffffff;"><img style="margin-right: auto; margin-left: auto; display: block;" src="data:image/png;base64,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" width="704" height="342"></span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Explain why, as the reaction proceeds, the pressure increases by the amount shown.</span></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><span style="background-color: #ffffff;">Outline, in terms of collision theory, how a decrease in pressure would affect the rate of reaction.</span></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><span style="background-color: #ffffff;">The experiment is repeated using the same amount of dinitrogen monoxide in the same apparatus, but at a lower temperature.</span></p>
<p><span style="background-color: #ffffff;">Sketch, on the axes in question 2, the graph that you would expect.</span></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><span style="background-color: #ffffff;">The experiment gave an error in the rate because the pressure gauge was inaccurate. Outline whether repeating the experiment, using the same apparatus, and averaging the results would reduce the error.</span></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><span style="background-color: #ffffff;">The graph below shows the Maxwell–Boltzmann distribution of molecular energies at a particular temperature.</span></p>
<p><span style="background-color: #ffffff;"><img src="data:image/png;base64,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" width="400" height="259"></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">The rate at which dinitrogen monoxide decomposes is significantly increased by a metal oxide catalyst.</span></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">Annotate and use the graph to outline why a catalyst has this effect.</span></span></p>
<div class="marks">[2]</div>
<div class="question_part_label">e.</div>
</div>
<br><hr><br><div class="specification">
<p>This reaction is used in the manufacture of sulfuric acid.</p>
<p style="text-align: center;">2SO<sub>2</sub> (g) + O<sub>2</sub> (g) <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext=" \rightleftharpoons ">
<mo stretchy="false">⇌<!-- ⇌ --></mo>
</math></span> 2SO<sub>3</sub> (g) <em>K</em><sub>c</sub> = 280 at 1000 K</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State why this equilibrium reaction is considered homogeneous.</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>0.200 mol sulfur dioxide, 0.300 mol oxygen and 0.500 mol sulfur trioxide were mixed in a 1.00 dm<sup>3</sup> flask at 1000 K.</p>
<p>Predict the direction of the reaction showing your working.</p>
<div class="marks">[3]</div>
<div class="question_part_label">b.</div>
</div>
<br><hr><br><div class="specification">
<p>Limestone can be converted into a variety of useful commercial products through the lime cycle. Limestone contains high percentages of calcium carbonate, CaCO<sub>3</sub>.</p>
<p><img style="display: block; margin-left: auto; margin-right: auto;" src="data:image/png;base64,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" width="538" height="218"></p>
</div>
<div class="specification">
<p>The second step of the lime cycle produces calcium hydroxide, Ca(OH)<sub>2</sub>.</p>
</div>
<div class="specification">
<p>Calcium hydroxide reacts with carbon dioxide to reform calcium carbonate.</p>
<p style="text-align: center;">Ca(OH)<sub>2 </sub>(aq) + CO<sub>2 </sub>(g) → CaCO<sub>3</sub> (s) + H<sub>2</sub>O (l)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calcium carbonate is heated to produce calcium oxide, CaO.</p>
<p style="text-align:center;">CaCO<sub>3 </sub>(s) → CaO (s) + CO<sub>2 </sub>(g)</p>
<p>Calculate the volume of carbon dioxide produced at STP when 555 g of calcium carbonate decomposes. Use sections 2 and 6 of the data booklet.</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>Thermodynamic data for the decomposition of calcium carbonate is given.</p>
<p><img style="display:block;margin-left:auto;margin-right:auto;" src="data:image/png;base64,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" width="205" height="119"></p>
<p>Calculate the enthalpy change of reaction, <em>ΔH</em>, in kJ, for the decomposition of calcium carbonate.</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>The potential energy profile for a reaction is shown. Sketch a dotted line labelled “Catalysed” to indicate the effect of a catalyst.</p>
<p><img style="display:block;margin-left:auto;margin-right:auto;" src="data:image/png;base64,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" width="454" height="317"></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>Outline why a catalyst has such an effect.</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>Write the equation for the reaction of Ca(OH)<sub>2</sub> (aq) with hydrochloric acid, HCl (aq).</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the volume, in dm<sup>3</sup>, of 0.015 mol dm<sup>−3</sup> calcium hydroxide solution needed to neutralize 35.0 cm<sup>3</sup> of 0.025 mol dm<sup>−3</sup> HCl (aq).</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>Saturated calcium hydroxide solution is used to test for carbon dioxide. Calculate the pH of a 2.33 × 10<sup>−2 </sup>mol dm<sup>−3</sup> solution of calcium hydroxide, a strong base.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the mass, in g, of CaCO<sub>3 </sub>(s) produced by reacting 2.41 dm<sup>3</sup> of 2.33 × 10<sup>−2</sup> mol dm<sup>−3</sup> of Ca(OH)<sub>2</sub> (aq) with 0.750 dm<sup>3</sup> of CO<sub>2</sub> (g) at STP.</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>2.85 g of CaCO<sub>3</sub> was collected in the experiment in e(i). Calculate the percentage yield of CaCO<sub>3</sub>.</p>
<p>(If you did not obtain an answer to e(i), use 4.00 g, but this is not the correct value.)</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>Outline how <strong>one</strong> calcium compound in the lime cycle can reduce a problem caused by acid deposition.</p>
<div class="marks">[1]</div>
<div class="question_part_label">f.</div>
</div>
<br><hr><br><div class="specification">
<p>Iron (II) sulfide reacts with hydrochloric acid to form hydrogen sulfide, H<sub>2</sub>S.</p>
</div>
<div class="specification">
<p>In aqueous solution, hydrogen sulfide acts as an acid.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw the Lewis (electron dot) structure of hydrogen sulfide.</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>Predict the shape of the hydrogen sulfide molecule.</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>State the formula of its conjugate base.</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>Saturated aqueous hydrogen sulfide has a concentration of 0.10 mol dm<sup>−3</sup> and a pH of 4.0. Demonstrate whether it is a strong or weak acid.</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>Calculate the hydroxide ion concentration in saturated aqueous hydrogen sulfide.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>A gaseous sample of nitrogen, contaminated only with hydrogen sulfide, was reacted with excess sodium hydroxide solution at constant temperature. The volume of the gas changed from 550 cm<sup>3</sup> to 525 cm<sup>3</sup>.</p>
<p>Determine the mole percentage of hydrogen sulfide in the sample, stating one assumption you made.</p>
<p><img src="data:image/png;base64,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" width="705" height="303"></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">Benzoic acid, C<sub>6</sub>H<sub>5</sub>COOH, is another derivative of benzene.</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Draw the structure of the conjugate base of benzoic acid showing <strong>all</strong> the atoms and <strong>all</strong> the bonds.</span></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><span style="background-color: #ffffff;">The pH of an aqueous solution of benzoic acid at 298 K is 2.95. Determine the concentration of hydroxide ions in the solution, using section 2 of the data booklet.</span></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><span style="background-color: #ffffff;">Formulate the equation for the complete combustion of benzoic acid in oxygen using only integer coefficients.</span></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><span style="background-color: #ffffff;">Suggest how benzoic acid, <em>M<sub>r</sub></em> = 122.13, forms an apparent dimer, <em>M<sub>r</sub></em> = 244.26, when dissolved in a non-polar solvent such as hexane.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p>A 4.406 g sample of a compound containing only C, H and O was burnt in excess oxygen. 8.802 g of CO<sub>2</sub> and 3.604 g of H<sub>2</sub>O were produced.</p>
</div>
<div class="specification">
<p>The following spectrums show the Infrared spectra of propan-1-ol, propanal and propanoic acid.</p>
<p><img style="display: block; margin-left: auto; margin-right: auto;" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAiIAAAEdCAYAAAAxcAzPAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsMAAA7DAcdvqGQAAFzeSURBVHhe7d0JXBX1+j/wj+RfzUOE5IILhCmimIi4lailpnLJvKS39LpFiaYtFtW9plb3/iwz7jUpXDNLrkulJXJNvS4ppmKlgqSJIi6IlriEiOCWcv7nGb6jBzzAnHVmDs/b13lxZphzHM4y88z3+3yfbw2jCRhjjDHGVOAhfjLGGGOMuRwHIowxxhhTDQcijDHGGFMNByKMMcYYUw0HIowxxhhTDQcijDHGGFMNByKMaVFJHtKTZyKmTTP4+4tbm9GIT05HXonYxmUKkb15PuK/PSmWNaIkC4kDg0yvTXdM2XperGSM6Q0HIoxpTUkukl8YiKj5BRiwOhO5uadMt2PYtbgzDkwaiF4vJOM3VwYjeVsQ9+xcHLgpljWhBEUZG/BVRgMEBxdiycw1yHZ5gMYYcwQORBjTmJKjW/D5uqvoN24MogK9xNpa8O0cjYkTH0Hxuq+x8ehVsb66yseelSuQGToU455uB2RsQmq1f00Y0ycORBjTmJJL+cjFNZwtuGy67jdXB4HRy5CbuwzRgXVMyyeRHBMC/+iZSEoYjTZSF04QIqYsQ3re9dKHEOrmWTIFEeZdPJuzUSR+LSm/jf8TmLJkN07unonQLi9ho+nEv3HCw/APnYn0G+L/jYhGTAR1jZi2H7gAKStfMt3vj/h0s2fOS0aM6feh8em4Ie9vxBR8Hi/vbzO0iZmP3dkHsPnWOvobkpFdVEkTR+Ev2JSUA0O7B/Foj74IxR4kpZ4o93oxxvSAAxHGNKZmqx54Jth0kf/OSIyN/wrfpudVfoLdMhNT9j2K5Mxc5Oyaiy5pUxEVPR/p0om8AOkfj0fU+3mIXLkHOdTFM685Njw7HG8k54rnFdtM2Ycui3eZtsnEpqlNkTRlBF488DjSd81GP/igX8IPyM14DWE1pQcBmZnA0CRk5uzB6ql/Qqu7xPqqZH6DFReGISUnF5nJf8f9G9/D4D7P4su7RpvWURfUSGDJRLz+TXYFf3cJCtO3IKk4AIP6PgjvFg9jUKjp9Ur6AUc5EmFMdzgQYUxrPDtizKzZiO0HbIx/Ay9GdUKA1ErwGZK/tZCsahiM6VOHIMjTAx6+vfD3919EcOYKrNyTj5LsZPwzPhOhE/+Olzr7mr7wteD76Di8ObIW1k1aiG2FpicrzMDKBbthGPk63ni0iWkbLwSZApmDuVlYHR1UyUGiCwZEBMHTwxehoY2hNA6BYQjefKMXfD084BnaH0NDDaZ1ERgR/ZBpnWn/ukeiv08xMnYcxFnxkLLykb5pC4oNvdE3zMd0FLsf4YM6cfcMYzrFgQhjmmM6QQf2RezCXcjZtRpzEhIwdWQrZC75Bya8OBC9xi5Blnm3RWAHtPWtJRZMj20Zgo6GHKzdexS/HtiDDASgV0hTsy+7N1p3DgWKf8LeI5dx40g61hYbEBjYGJ5iC0V8HoB/fbl5xAq1veFVV+yNR114N6wNhIehtZeyw1HJbzvwVdI5U3A1HD2lx9RBi3DqnvkecYk/orB0M8aYTnAgwpiGefiG4YmoQYie9i1yMzcjYWQHFG/8BIv35IstTBp64x7zb3JdL9Q3nduBP1BUcMH08wDio1qX5nJItwB0mZBMG5ipbXqaujo4IFzF0Y1fY11xMTLe6YMA8TcF9HnLFHCZYqukLUinVh7GmG5wIMKYXngGYWD0YNOVP7V25OKGWH2Hy4U4f43u/D94etcz/XwEUzcfEcOAzW8bEBsmt4HkY8/xcxU/p1aUnEBq0h4g9D1szjH/W3Lxy+LnYCjegk3pZkEaY0zzOBBhTFPOY+uU7vBv8w62Wriy97jHGw0RgMc7+ONWp0hqOg7d2vZ2IufjHVqgadtOFkaUXEV24nD4+w9HYvZV1GwZhscNwLXzhbgstnAM074cSkeqWHKEkqM/ICnjXkQ+1xstyhy9POAV1huDDDlI2vQLd88wpiMciDCmKfXR88U3EInPMf61j5BsNmKmJG83lsz6DKn9nseoTj5irUnxcnwQt1oa7lqSl4IZHywHIt/Aiz3rw6NFbzwXeS8y4v6F2bvpua4jb3ci4uL2IDj2VfyFhgF7hWLw2M4oXvIhZmz9zbRNCYqylkhVXdtM2SpO6tRikoeCo0crqOxaEw2loOcAFsxdJeWwlOT9iMSl61EstrDfVRxN3YQMQwSG9m5258HL60H0HRSA4qRV2PKb2fBlxpimcSDCmMZ4NInC3JTV+Ff33zFfGjEj8iB6zcf5jn/D6o+GSyNkbjE8jI43PkOfYH8EdJmE3/rPxuoZA9GENvHwR9Tc1Uie7It1g+m5HkCXwWvRaPJSJL7SWSSneiPslXlInhaCXaO6mLbxR3DfFWg0cSlWT+oJr4YP4fk3+uNa/JMIGfAfHKqgvodH4DAsWPkWwlMnoS/tS6/PcLNbXwSL39utaD/WfLUHhkG9EWYxsdUHnQY/jeDi9fh84/FbARxjTNtqGE3EfcaYrlCBsMcxYU80kveY1fdgjDEd4RYRxhhjjKmGAxHGGGOMqYa7ZhhjjDGmGm4RYYwxxphqOBBhjDHGmGo4EGGMMcaYajgQYYwxxphqOBBhjDHGmGo4EGGMMcaYajgQYYwxxphqOBBhjDHGmGo4EGGMMcaYajgQYYwxxphqOBBhjDHGmGo4EGGMMcaYajgQYYwxxhzk559/RnJyMq5cuSLWsKpUm9l3/f2biXuMMcYYc5Tc3FPino0oEKnO/PyainvatXPnTnGPEX497sSvSVn8epSlp9fj8uXLxqeeeko6Nqempoq1jqfkNfn999/FPWUOHz5sHDdunPQ42n9rH68mWz8jjjiHctcMY4wxzUhISEDHjh2xeXMKJk16E/n5+eI3rmU6MSM0NETqalHqwIEDCA8Ph4+Pj2nfp2DdunXiN6wyHIgwxhjThOzsbNPJey0mTJiAwMBAjBkzFsuXLxe/da3t27fjoYe64fjx42JN1bKysvDAAw9I9x977DGsXr1aus8qx4EIY4wxTZgyZQqmT/8Ad999t7Q8ePBg0/I0VVpFKCAaNmyYFFwodfHiRTRo0EC6T4EU+fXXX6WfrGIciDDGGFMddYWQbt26ST8JBSQvvvgy0tPTxBrXkAOftm3bSsGFUqmpO3DfffeJJWDgwIFISUkRS6wiHIgwxhhTHXWFvPrqq2Lpto4dw5CdfUQsucbJkycRHt5dun/kiPL/+/jxY1J+iKxr167cPaMAByKMMdVQrYXvvtsk3bjuQvU2Z84sdOjQQSzddv/9AVJg4EqUFxIcHCx1r/z4Y2lLjS3o8WfO5KmWcKsXHIgwxlyGgg1KSKTAY/z48QgKCkRaWrp0i4joj8mTJ0u3efPmYenSpXjkkZ7STW62txY9Tn4u+n8rQvslF6KibZUERvTccXFxePrpp6U6RXSjv4meg/MCrEPvzeOPP3ErN8Rcs2bNTO/JYrHkGqdPn4avbyOxpAy955TcWt7QoX91edeS3nAgwhhzCTpxU7CxaNEiqal95MiRyMrKxsSJE6XbqlXJePbZZ6VbYGBLXLp0CV988SUWLvxM0TBOen7zipYUJCxZskR6Lk9PT8TEjJbWlQ8w6ATyzDPPYP78+dIybbtlS4q0r/R8dKPARA5k6CcFHB999BF69OiB+Ph4qaAT3caNGyedxGJjY6UAhYIaDkqqduJEDkJCQsRSWRScNG/+gEtbFagFhlpiiNL/+/Lly2jZsqVYuq19+/ZSoM0qIeqJVFtc0Ex/+PW4k5ZeEypCNXfuXKko1QcffCAVdaJ1PXv2kAo+2WLVqlXGSZMmiaWy6PmpiBTdTIGH9P+sWLFc+knFsWR0n/aL9kl26tQpabtNmzaKNbfRvtL/Szd6HD0/bVvR9uXRc9P+yMW56Cc9l/k+uYrWvzP0OtFrUxF672397FSksteE3it6/4jS/5u2sfQZlYubaZ2tnxEuaMYYUx21EFBLg9w9IbdCTJs2DUFBQXjyySipRYNaN+Qhjdbq37+/lDRI3SemA6bUIiH/f1R0iq6mZ86ciREjRkhN4VRIipINzZv66X50dLQ0LFNupZgzZw5iY1/DY4/1lZbN0b5GRUVJN/r/qIuHWme+/36bxe3La9q0qbQ/K1askFpLaGjqrl27pJYWa4pkVQeZmZnSCJWK3HvvvTh37pxYcj7KC6H3zxEoeZW6bCrrGqzuOBAxkZtf5RsdJLg5lbHKUXM1nZypy4MCDupmoRMuraMTtXwipy6X9es32HVgpyCCTuQTJrwsdYlQF4jcHUI3ChTkoKNbt27YvPk76X55tA0VyaIhlXRioOGWtI9K2RpIEWqif//996Vghv4Oep2qykNhpejzdfbsWbHkXJbeE3uDoF69ekndT8wyDkQsoEp+1MdLV1t0pUdXYIyx2yhgp5aOe+65Rwoy6GRu3vpgjq4IK/qdNehETkENtTDQ/Yr4+fmV+VmePKSSclWoNcTVKJih14zyEF577TW+6DGh1q66deuKpTt5ehqk3BtXOHXqFEaMGCWWgC5dutgdBFELIeeJVIwDERO5+VW+0VULHewyMvZJY9ipqZky9+ngy1cwTM+oFYNaAuizTEG2eReH3P1g3m1A21MgLrcWyiNZqIuBruyp68ERQYZS5jUaKkLbdOnykHTwt4QCAaqYSajLRw30mtFxhv7/YcP+Wu0vdqrqClFjCK8j0f6npfHImYpwIFIJOqBRE7PcN0wHX8qu5ysYphcUONNJjoIOCiCoFYNaAoqKiqQgm67I5e4Nui/ndlBQQsNoaXsqNCWjESWU60EnUXu6KZxt1KhRtwpSWSJfcLgyiLKE9iMhYZaUQ0OBHrOMWkuoG80VaPSLo9F3xZ56JO6OAxGF6INEBy4q2UtXMNwywrSOWjYoMXLNmjXSMFPq1qBES/ocU0uGnMcho/u0jloDaWjtgAEDpC4EGlpr3mLoqCQ+Z6L5PtQOMpSibiYK7jZs2CBd9LA70WeOqpa6AhUzo+4YWfPmzaWL0KrQzLvmjyuP6qRwwqplHIhYSc7Kf/fdd8UaxrSFWuyoBYQSIulqmwIPSuBU0q0ho+3pppeTud7RiZZG/ezbt6/aBSNKL+qonocardGV5a5YIyAgwKUjf/SEAxEb0BBAaiZ0ZYEdxqpCB3QKQKjFjk5s1JpRWVIn0xYK+igY+eqrL6tVzkj55NCKUFebM7pNXMWVI3/0hgMRG9ABg1pFtm3bJtYwpq5ffvlF6obx8vKSAhBXJ5Eyx6D3jLpphg59mnPRLFCjRYFm03VEforSLp7qiAMRGzVu3FhK+GNMbXT1/Mkn86VuGPN6GkyfqDXr889paHEs56KZccQwWltQl6Yj8lPq169v1Uy+1QkHIjaiKoBUDZAxNdFVM424oIRS7oZxH5Q0TPOWrFy5UqxxX1rrbqFWi4YNG4olx6EAk0fOWMaBiI3kGSH5ioWp6b333pOKcjVrZrl4F9OvN954A5MnVz3Zn96VH6VSEVd2bdCoq/IccaynUu/c5XYnDkRsRM3fL774crW4YmHaJI+uoCG1zP1Ql0BCwmzMmDFDrKneHDV6xRaUTEtJtfaiVq7z58+LJSbjQMQOY8aMwaefLqj2VRGZ69FnjkZX0CgL5r6o8iolSvJVdGkgovccC2r5oRYgraDjyHffbVK9ZZ8DETvQFYuc4c6FapgzUfM8HTCo+iYlpMqz2XJiqnuj95e63mhuHHeVlZUlzSVTFXfIsXDlnDlVoeMJTV+yZUsKEhMTxVp1cCBiJ/pyfPXVCmkGUsYcjQJcCjyo1Hp2dunVIM08S0N06bPH3F/Pnj0xffo0t81Hu3jxojQXi5bRBIpVzZ6rZBSlVubMoQsbKspJ0zpQLhJ9vgoLC8VvXY8DEQegCpTBwW3LTBbGmDUo4DC/0WeJ5nqhAHfw4EFSaXYKSCgfhEbHcEtI9UEtr5SPtnfvXrGGuVppuYZisVRK/p7KaBQlJdRWhmqS0CAHtVENLCoQR9M6yJ+vw4ezxG9djwMRB6GTxfr168USY8pQHy1NRke5HjQZnXxbvny51J9MLR80lJNVbzRXkPnkg+6EcmDoBK2EluZrSUpKkr6n5qpKqKWTPlG7dSs+fiaeffZZsVT6+crKOiyWXI8DEQehJjdqYmRMKRr1Qn20NLMz3ac5Ycxv1PrBLR+MtG7dGnPmzBJL7oWKhckn6KrUq1dP3HO98l0vdLy3peIqBVOOGIFjK2rFadTIt8yEl/T5Wr1avdmfORBxEEeVAWbVg/moF/MDAmOW0ImaZ29Vj6UClhcuXLCp4ioFU2oWcaOW+7Fjx4ilUvT5at26jWqfLw5EHITeSFdNU830jRLFaNQLtYRwiwdTKiQkRJpq3p3Qd4Fm1VVKSdKovZR2Fa1d+624Zx01h/BSlxC1rIWFdRRrbuvQoYPTX9uKaCwQuY689GWYEhEEf/9m0q1NzEwkp+ehRGxhSUnebiyZ8oTZYxKwOVu9DGDGKkP9ymPGjOWWEGaVwMCW0lBXd/L7779LSZNKWUoadbSKuoqoBWTp0qVl8jtsaaVScwgvJTxTYqqlv4+Cr7y8M2LJtbQViBTuxKzhU5HWMQ6bM3ORm7ML85qkYELU61icfVVsVE7RbnwcPQLv/z4aP+acQm7uL1jWNgXPDpyBrYWVhS+MuR5dAVKXzODBg8UaxpTRex4adUfaW5hNrZM4XTRQCwiV3DcfvWRLzoqaQ3gp4ZkSUy2hET9qzZ+moUCkBIXpW5BU3AlDoyMQ6GnaNY8m6DlyMEKxHzsOWJ7++cbh7fhPZm2ER3REE+mv8UbIIz3gU5yMpVtcW42QmhjpRMNYRag1hApUcZcMs5Y8v5VeUeFHmhvJnhEjzj6JK9k3e2cAVqtCrNwtQ10wltSuXUe1yrUaCkQu48jen1BsaIGARrXEOtMONg9BL598pO4+Cq13tlATIzU1MmYJHQiocBAVqGLMWnoOXs1zQQ4fvj1MlHJegoODxVLVnB2M0WgWmlfGEpqwzhJrE0/VqhBLuS+TJk2p8HNEE/2pVblWQ4HIVRSeLzaFZd7wqmu2Wx4G1PM3oPhMgSlUuVPNVj3wTPA1pK5Pw29ST0wB9n2/HfmGXhjQpZG0DWNaUFn/LGNK6HXkzKFDhxAZ+bg0d87+/fvF2lKenp7iXtXoJEoBjRpz7/Tq1Uv6v2kYL70HFJjYk3hqT8uQLVauTJKKb2qRhgKRKyg4Y6HNw6MuvBvWFgsWeHbGK7MmIXDdS3gogJJVH0RU/DmMnPc2oprcbllxBVdkdDP9ov7Zjh3DxBJj1lOzjoY9qHYFffYtDYO1FgU0J06cEEuuEx0dLY10k/efZtI1Ry01SguzOWo2X6WoRSoz84BUlbkqaqQX1DCaiPsqO4nkmMcxYU80kve8hrCaYrW8HlOxa2EUfMVaWclvyXihz/u4MXERPopuC08aebP1X4gelYb+yYsQG+YtbUejaSqyfPnX4p59tm/fJv3s0YOb3llZ165dw6hRI7B48VLUrl1JYM1YJZYtWyadTB588EGxRh/+8Y938NJLL5u+B1exbt06jB37vLR+48YNUiuHNcfMPXt2SyfxqKgnxRrHOXXqZJn9K0/+fWRkpPSzTZs20nra/yFDnlJ8Llmw4BP07t3njmDGWZS+ZrRf9Lc1a+Yn1lSN/u7cXDuDKgpEtOGcMWVyuNGv/YfGtD/EKnLzkHHRE62MfqNXGU+LVbeJx7R+25hy8aZYZ1LpY8ry82sq7tkvIyPDOGnSJLHkODt37hT3GNHj65Gammr84IMPxJLj8WekLHd9PVatWiXdrKXm63H48GFjz549pPumk6Hxqaeeku4TOl7ScdMa9Bzy89nD0mtC+1rZMVz+vfzT/P2w5lyyZMmSW4+7fPmy8ffff5fuO8u4ceOqfJ3p9ZD/Nms44hyqoa6ZOvCqbzBdOhag8LLZsNuSYlzILYahkTfurOIvunPuyCsR3Tl7juG3G2KdC1Q1zwCrXqg5mqbtp77gNWvWVDhsjjF3RZ99mrhx+vQPpGVLiZrWHjflWafVyBMpr2HDhjbVdjHPi3nmmWek2bWdlTNiTbeMWjQUiNRFyw5dYSg+ipwz18U6UxxyfB9S8g0IDGyMO1Oa6sG/bWNx30zJZRScvQZ0egBNbnXxOJ9aw7KY9lAQMmHCy9JBKiKiv7ROq4liTF+UTDevFRs2bJCK9zn6s69Wnkh5NNLEltoucgBDwdSZM3nSiEtnTRFCXUhDh/5VLGmThgIRD3iF9cYgw/eIi/saWUUlpm9cFlYnrkSGIQLP9WtuYWc9ETpkPCKvpWDll7uRJzWkXEfetq/xVUYwYl949I6cEmeqbFgWTWpGs6xqIYpnzkVXNhSEJCTMwsSJE/HFF19Kk9gxZi81i05Zi74HNMsr5Rw4WlBQkN31PCg/xZZWCKqwai85gKGhvxSEDBgwAFu2pIjfOtbq1autCgTVmAdHQ4GIiVc3vLwsDoNOvYe+wf7wD+6DCWkhmLZsEgaKETA30mci1D8EMcmlRW08mgzEjNUTUP/7F9FFGjXzALp8cAXDk+fhFZGoqja6Ok5JScHbb7+NOXPmiLXMXSUmJkpXbHJTqNyUzJi99NT9e/jwYQQHt610uDqNNKHaINaigGzXrl1iyXo0/PazzxZaPXJFrrDqCNR6Tif9e++9VyoyRq+Fo7tn5BYXpd0y5YcjU7cOXUA7q9tIpq1ABLXgGzYc09ZnSVm40m39NIwM8721ozXDXkNG7j4sjJKzej3gGdgXsQt3VfgYtdEbO3DgQCnydcaHjWkHvbdUtGzMmLKzWzJW3VC9EKobUhVbCrXZG5CdO1daqdvWSQTp8RRA2IoCGmo9p3MDte7Qa0A1Yih4cyS6AKauMVtRJWiae8fagM1aGgtE3BNF7u3atZM+bK4eP85ci4uWMWdydmVRR5DrUFAXEtUNcQZ78/Hkbh1b823o8RRAUN0QR+V2WCr2Zi/qlqFCbEqVn8uHyulTgOTsWZ85EHECSy0ecgRPUTQXPXNflU0qxZi9bGk9cCWanZZGgFAwYmu3ixKOKJPep89jdufb0AUHtRjIlVatQSd48+4lCtoocHAUSgkg1nQN01w++/btE0ulQkJCnD7rsw2BSAmuXsjFwfR07D9ZBOONizh/8Q/xO2apxYMiZrniHkXRak21zJwvLS3N9GW+XywxVr2kpqZKXdAUjNCJtrLAifIXrD15Owpd9RsMykvLK2FtcTKqkkvBGuW7ELm7xlGVTXfu3CmlBFiDAkfKgZH3gfaPEl1zcpx78WxdIHLjV+yY8yL6h3VD/6iBGPnNYfxxfBWee2QU4rb+CheW7NAVipjlpnpHlDhm2kUHEk5OZc5EJ2+tzjdDJzEaIUZ5Ca+99ppYW5Y8VwwlatpTWdSe2c6pyyEoqJWq5RbkHBPzfBe6kKV5eexFrfJfffWl1SOWKHCkruX09DSxBlKiq6MSdCuiPBAxnsePH76EkZ9dQeS/38Jf7ild7dG4M/7a8yzmxLyHVbnXSleyClHLiNb7eJlt1LzCY9WHq8qCW8v88z9ixAjpCt8SajFxxBBReh57Zjv39fW1u3vHHtQ6Xh6NWpG7VOxBuWpVjViqSEREhDRBHr2f1KpF7An6lFAciBjzduDz+UfRc9I/8PeoLvD7f+IXnm0x9O3XEYUtWLIlB2Y1Uast8y9Z+b5D+mA4+01l6qACSx07dhRLjFUv9rZw6AUdv80TOun4bkveX8+ePaXHmgdsnTt3lka62Ity1QYPHiSWrEMtIFSJlY5n8iSL9gZ9VVEciNw8fQy7bjZGaIsGqCHWyWrU80Vzz2LkXiiu9oGIpWmhy3856U2lpkHmXuhKhmfXZc6m1Vm+lQ5ppW3k4bN6VP74Tcf3oqJisaQcXZROmzZNLJWibl2q+2HPhSp1y8yZMwthYbZfFFEl1qFDn5Y+a8TZ75niQMTjHh/44wKO5xWi/HS9xtNHkXHRAP96BiuTTqonS8EK0z/qk23TJlgsMeYcjRs3tunE52zykNaq0Da0rb21OOxB3eMNGjSUuh7UzLex1H1FxRDtyROhbhn6u2zplpENGTJEyhWRk13l98xZlAciLR7ByN7X8e2ib5B6ukgEI9dx6eROLHw3Hil4GIO6+XEgUo6lL5utEyUx7aIMdeqT5URVxpRRGrhUxN6r9Nq1a9/qerAXddU4KqiiVlV78kTs6ZaRURBD01OYH8+cOceR8rjBIwBPTv8QzxXPx7DwYfgoH8iP/wvahz+Ndzc1xJjPp2FEK/2UH3Ym8zfM0peNhnfSME/mPj766COMGzdOLDHmPFR0SosXMrRPdJHlKs6+SrcG1d6wJ6gyR62q1LpqK3u7ZSxx9mhPKxowaqBm4z54K2kz1i6ejakTX0ds7N/xVtwiJO/8Am/1agoXTnSrWUreMIoy1czWZo4lN+1qeZpt5j6o6JQtM746G+0TTeamRXFxcQ6dWoNqQ8n1P6ir3ZHDW+n80KiRrzRqxVrUkmJvt4warOtJuXEW+zf+F2sK2mLki7GmQORZdMpfibkLV2PvOR66aw21+yaZ4yQlJWHYsGFiibHqyRGz0joDHWeplcDSPC7BwcE2lS+n2lDOnICQyrIfPGh9CwR1EdvbLWOJs6cWUB6ISHVEnsefX4rH+n2nUSitvImahrr4beVEDH5uAdIu3ZTWstsq6lejsrlc6l3f6AqLvvh0kFMyuRdjjuDI+U0ciVoFKqodYk6eOdeZOQeWWBog4Onp2OqqjkKtq1u2WD+Ml7p0HN0tQ5w9tYDiQMR4KgXz5meiTexSrH27J0pTfLwREv1vrPj8DbT5+TN8svm3O0bUVEfm1foqmviJMt+zs9Wr6sdsR02mkydPRlBQINasWYNvv12r+TlAmPugZne6ItcruSWhomOjUnJAU5XyLR7UQiIX6nIkyt1xlA4dOljdAkF/l61FzJRwZv0rxYHIzXMn8fPNAPR9pA08yxQSuQueIeHo63Meu46fQ3VvE5HnC6gKfQHLTy7ESlsZ6AtlS/+oK9D+vffee9L4+tzcU1I5a84NYWpwZM6DvcyrqrqKtV0j5i0w9oyWoe4cc3IwRbk7jkIXNhQsWTN65qeffnJqy6wzi5opDkRK64icw6Hc/DvriJzNxaEiriNiSUX9phSwUFOmlg4maqODWUREf8ycORMPP9wV8+bNE7/RjpUrVyIgIADjx48XaxhzPTpJlZ9csyJ0jNmzZ7dYcg6tV1WlOVwsDSIoP+29Eq7qzqGgYv/+/WKpajRzL1Vm1SPlgUjL3njuT8D/pk7D3A1pyD55Gnl5J5Gd/j/Mfedf+B/647l+D3AgUk5l/abWHEyqg9jYWLz99ttSAPL554swffo00LTiWkEtNZ9+ugBjxowRaxhThzVX9ImJifj3v/+F777bJNaoy9U5LtR9U74VQ0atGPZWuaZETmoNop+OREEFzWashNyC7Mw6RtQKbEtirxLK44Yafhjwz48Q++DPiBvzZ/QJ74wuXR5Gn6gxiEsPQmziRAxoIk9Aw5QIDw932hurN5T0SQeoxx7rKy3TT8q9oBM/BQBasGjRIlOw9JruhsYx92PNaA+au2T06BhpIjNnocR7uRx4VeQcF8qBsOfkTV0zSmfPdWYrBnWjrFixwuF5YhRU0JwvSvIyaISNtVP+W4vyGp3FigYMqiPSE7Gfb0TqhiQsnj8HCQnz8NmXG5C67VPEduc6IjKKjilCpQ8QJfhUxNe3kdXNgu6KCoKVnzacci/oxP/dd9+JNeqh95Ou4nh0DNMCOrEqOXZQgE/69euv+KRmCyo5b82JSs4nsefkXR3qMdGcL0rKvVOQ2a5dO7GkP1YEIkbcOPczVn8yA//68BMsTVqNNWuSsXzRTPzfq88jJuZlxO/Q70RGjkR9pdRnSok9lOBTEUc0C7oD+WBpqQuLZqi0p8qgo9BV5ZgxY3l0DNMESpBUcuygUV2vvvqqdJ+ORfbMYeJIdIys7CLNGRxd58TRXTGW0MUYlWyvDAWXlALg7KR5paOUbKE8EPnjEJa+OBwvxS1HRj7XC3EEa5oW3Zn5wbI8asa1tcqgI1EXERUZYkwLlORZ0AmKtqGhoIQqgGqlJPqAAQOkwN4V6DWgfAu5+ildJMpsKdQll7F3xUUJvXdUp6gyFFzSBHXO5swCbooDkZtHtmPZjx54dPoapCQlYuHCz8rdZiG2uzbL+6qlqn5TLvV+u8tDPlhaYmuVQUehfaRgyJmJYIxZQ86zqKyrZdu2bVLTvnzCdOZkm3SlbM08M926dcOIESPEknPR62T+3aXCZhSUEVuCCVeWsaf9q2oYL7WY0ER5ruCs6rlWtIhcx2U0Roc2jTkXRCGl/abO6rfVA+ryMD9YWhIY2BJqFn+jIIhbQ5jW0JDUyuo6UHBAJ3wZnUCdOUeNVueZcTRqGXBltxLlpcnd15Y4Y5I7S+SSE86gOBC5KzAcw9qfxrebfsElLp9aKXl6akomq6raXlUHE3dHY9+ryvamXBoKWNSSlpYuBUOMaUlVI2eoy6FVq1ZiiTkKta58//02seR81K1UUZ6cXie5K095i8hND3g3b4rjc55B5IiJ+CB+JuLL3Gbj630FYuPqTZ6empLJHFltz93IeR9VdXkorVbrLGlpafw+Ms2hUXcVdbXQd4tGprgij4E5Fx0fqWvYUvcMtZRQGQhXckYRTuWByJVf8eO3+3ETxTixfRnm3hGIfI5tp24nAdnmOvLSl2FKRBD8/ZtJtzYxM5GcnocSsYVFJXlIXzIFEeIx/m1GI2F3FY9xAcp9oKSyytg6+6M72L17t+IuD4r61aonQkFQRUXpGFMLBcc5OZYnzjx//rymK50y61CrsaXuGWop6dq1q1hyPmrBd0YRTuWBSINIzDp+Sppfw/ItHbMim4iNbVS4E7OGT0VaxzhszsxFbs4uzGuSgglRr2Nx9lWxUXkFSP94PIZ/3xofi8csfuosZgwej4/T1WmhoWFOX3zxhXS/qiYzrc7+6AobNmwo04ddGSqrTt1drkbBDwVBjGlNZX325gmZMmeO0rO3OBmrHF2wUdBh3hohtyi7w0WS8kCkKjcKcb7guliwRQkK07cgqbgThkZHINDTtGseTdBz5GCEYj92HLB8EirJTsY/489h0Ig/IUg85tE3XsdIw2785/tjuCG2cyX6wtNVdGU1RMy5ejpsLaAEXSqwpHTsu9zd5WoU/FAQxJgWVdRSaGkUCzXxO7OLU6/dQGq2tipF7x3NrLt3716x5naivzuwIhAx4kbeT1j2wd8wNmY0Ysxvo59Ej8DueHPrGbGtLS7jyN6fUGxogYBGtcQ60w42D0Evn3yk7j6KQrHutqs4mroJGYbe6Btm1vLg9SimHTyFjNgwVUb4UIRKH+4hQ4aINRWjwkSWJmNyd+npaYiMfFwsVY2Sfp019LAyFPxQEMSYFoWEhFjs2qVhltVlFIu97JmJ15VGjhwpVaAm1DJCtY0ee+wxadlVnJVKoDwQoYJmE0Zj0twvsX7jBmw0v23ajdOdnsGorsrHkd/pKgrPFwO1veFV12y3PAyo529A8ZkCU6hS3g1cunDe9JhaKPhlAWLaiByRiClYUlVeiZPRxG08PXzFaCRKjx49xFLVqD/cmUMPK0JXltTVxpgW0THGUoBe2WSbTJ+oG5vyfujcQrOAU4u7q99jZ6USKA5ESgua/YH2E9cgK/u/iG1aC01jk3Ew83t8OqYTbh4vQkkde9ofrqDgzJ1tHvCoC++GtcVCeReQe+A0kD8fkz4Hnk85htzcY9j15t1YFqVejog1qmt1VRr7XlkRM62g96Z+/fpiiTFtad26NdatWyuWSlG3p6vLpzPXoNnJCeWHyPfdgeJAxHilCOcQgN4Pt8TdtZvhwfCG+PWHLJw1tEC/cWPxRMEqfPH9b1ClxIhhMKZPfQ6dfalLpxZ8ez6FoaGZWLAyw0J3jrY4u99Wi+Sx73roU6b3pqrhxYypRU6GNy+KWNUcV0y/6Jg5fvx4TJw4UZXjp7Oq89Ywmoj7lSrJTkRUn/+g0xdJeKd7LeybMwwD5nfD13v+jq537UV8p4H4zzOrscfmvIzz2DolCqPWDkLyntcQJj9JSRYSowbinYZx2LUwCr5idakKHoOTSI55HBP2RN9aT8lIffpYHiq6fPnX4p46Xn75Jbzzzj+qTZ8udecRmhFUqVOnTprepxV4/fXXxRrno0TV2bNn4f/+b6pYw5j2LFjwCSIjI9GsWel0Er/88osU7A8fPlxaNvfhhx9iyJCnb23rCGp8N2VDhjxV5fFb3kb+uX17aTGyHj16Sj/NXz/6W9atW4exY5+XfsfKsvT60OtKI2ftQoGIItcyjLP7tDJ2GP2xcePhfOPFlLeNrf0eN07deMh4YvtM45/8WhmfWHTIeFNsbr1LxrSZ/Yx+rd82plw0e5Y/0owz2zc1tp6cYrwoVt12xXh40TCjX/sPjWl/iFWSXOOq0e2Mfk8sMh6uYof8/JqKe+qZNGmS8fDhw2LpTjt37hT33MO4ceMq/XstuXz58q33ylWvB+0jvTd64G6fEXtVp9fjgw8+MKampoolo3HVqlXSzZz8elR1rLGFmt8TJcdveRv5p/z6WHpN9PSddzQl3xlLr48jzqHKk1VrPYhnEt5Cp/T5mJV6Fp4P/RVvReTj09F90H3Yhzj44HP4++Mt7BgPXBctO3SFofgocs7cHgZccnwfUvINCAxsjDvTZGqhUUALGPLTsO+4WZ2RkssoOHsNhnYBaGT7DrlMdSpqRtnetiTSqdEMSe8JvTeMaZlaQ9tZ9eSMie+sOE3fBc/gEZi7bTPmPBEAjzptMCxhJdYuXoCE+Suw8YvX0L2BPcmqHvAK641Bhu8RF/c1sopKgKIsrE5ciQxDBJ7r19zCzpoe0zMG0yOzEffhevwmDZMpRPbqZfgqOwLTX+wGL2k7baNMZJqXpjqgcfBUnc8WVLJaLuLjClTfpToXnGP6RH341syEW92Zn1ipO5bmCmOW0QWkMya+Ux6I3DiP7PR9OH7VB373lY5iqVGnMdo9GomoP4WgzrGfkJp90b5kVa9ueHlZHAadeg99g/3hH9wHE9JCMG3ZJAxsUlpb5Eb6TIT6hyAm+aS0DA9/RM1YhtlB36JPAA3fDcbANfXxt9XvIko8RuuolgjNS1MdHDt27I6Kj0rR0LXLl+2dRkA5qu9C7w1jekLD3LmGiHLmLbRcN0gdygOR8zsQFzUScTssNAHePIxvnhuKF9ccxU2xyja14Bs2HNPWZ90uHb9+GkaG+d7a0ZphryEjdx8WRpklW3kGok/sZzgoHnNw4QT0CdRDW0gpmo+G5qWpDlJTU20+udOVyokTlufWcAYaukvDqxlzF87oBqbvpJ+f45JfnY1rA2lP5YGIMQ9b414qrZ76+jzswUXsmf/3slVV6fbMJPwn3wD/egYrIhsmoyF4x48fE0vuy9b8EBldqRQVFYsl5+Ohu0wPqOqwedduZXWJnNHVSN/Jxo0biyXXsqY8O9VWkYc58wWG7cxfR0epPG6o0Qhd/9QFBrFYobub47EX/4W4v7TkQMRGepjvwF6HDx+2OT+ElD/gOpM8jTpjWkdVh827dimAtjXY1xtryrNTbRWqscLs44zXsYq4oQbuDhmFjxd+hoUfxcAXN+Eb828spGXz26cz8Erf+5B/ukidgmZuQC/zHdjD0oyg1ih/wHUmykXhadQZY8z5lDdg3Px/aAYfNKtpIdRwWI5I9VUdhvDqqW+Wh+4ypkx1GfHHnKfyQIRzRFymOgwTXbp0MVq1aiWWbOPKeXl46C5jVaNWSh5dVn3QoAEa5uxIlccNnCPiMtRSQC0G7krOubCnMBn1e7tqXh7OrGd6Yc2oO3c/zjDnc0YBvSriBrMckdlv45mIgXjmrYQ7c0QWzseMiX9GG8+7xOOYtdw9i/vgwUx07NhRLGkfFTnizHqmB+aj7ijhnRLfK+KMz7QzKm2y6kV5A0a97ohdMAux3blQjjO4ey2R7OwjpkAkTCxpnz3DjBlTk7MT35cuXSruleLvCrNX5YFI0T58HT8bX+8rEPdnIr7Cm9iO2cTda4ns27dPGvViL+recXT/ZHlU74QxdidqcZk8+U3s3OmaLlJWPVQeiFw5hW0Jn2PbqcvivqUARL6J7ZjNnFEoRiscddVEQ2qvXTOb4NAJTp06ZVe9E8ZczVV1iGg0Gf1fa9askZbdpd4OX3wo54x6TpUHIg0iMet4OmZFNhH3Rdl1izexHbOZuxbcqarfWmtcOZ8NY44gd8c4e9g5Jbr279//VjeyO9TboYsOuvhgyjijnpPyHBHBeLUAZ/LykHfH7SwKrkrT3zJWBs1FERISIpbsd/XqNXHPOewtvMaYq5nPw1TZsHNKVrVnCDwlptJQXbkbWW/zzDBtsiIQuYbTW2fg6Yfao3OXTqYDdfnbY3hjveumaHdH7lrUjBJVHTUXBQUIp0//JpYYY0SehykrKwsNGzYUa+9EcyfZMwRe7mKl7hjqllFznpnyaH+YPikORIy//Q//jPkIe3yfxlsfzkJCwuxyt/cR3d5HbM1s4a4FtPRW8IhriDC9oeCDgpCLFy+iQQPnjGyk/DXKYyPUHUPdMvRdqSzwcRUKQoYN+yvneuiU4kDkZt4x/HQ9EM++NRljn3oSUVFR5W4D0L15laXPWCXkg4m7oYqqzZo1E0v2c0UeDdcQYXpy//33IycnR8rdoFIAzkDfO8pjI3J1TeqqcVbgYw0Kiqi7iHM99ElxIHKXX2v0rHUNl65c54ntnIS+0HRF404cUVHVHLWsOLqqX3nOPJgz5gzU5ULdJo0a+UqlAJzBfNi8XF2Ta4gwR1AciNRo0AeTPn0CBya9hY/W7EBaejrSy9x+RvZ55yYRujt3LGp2/vx53WXV05WVsw7mjDkLjf549dVXxZLjUeAhJ3FT6+2ECS9pZjScnKgr/7QVDUul4anMtZQnqxqv4kLuSeSd/R/iXxiKJ6MGIqrMbSTidjj3StXduWNRM2eMQLl0qUjcczzuY2Z69f7776NbN9fU9KD/h1o6x40bJ9aoi5JmzX9aomQwAOWzOaLwojujbnbqbnckxYFISc4aTP3nehj+/DY++/q/SE5eXe62BBO7q5+0pHfuVtSsqix+a1Ez8K5dP4olx+NiZoxZVr61YP78+Wjfvr1Y0j6eTdsxHNXNbk55IHLhDA7dDMSgZ4ejb9eOCAsLK3drj8D6tcXWzFbuVtSMEui0kMzGGLNP+dYCLXVfFhU5r5WUOZ/iQKRmm554puU57D14GjfEOsaqordkNkrIoxEBjDH9yMzMtLklkwqy2ZtbwuyjPEekRj0EdvPD9rfGYdzU+Vi2KhnJyea3NdhxvOL+OaaMOxU1c9Y8FA0bNnJa9xUl5NGIAMbcGedC3UYF2SrLLWHOpzwQKdiP5MVpuHkzCxsXvodJr7wkZU3fvk1G4s/uOWGbK7lTP6azRsy0a9fOLefkYcwVKptbhWbVlS8u9ZarRhdxVGCN6Y/yQKRRBGbs3mN6oyu6fYcZEU3FxsxWVNHTXb5MepyzhZJrefgeq46++24TlixZIt2nxNQnn4wqM92/owsTOhIVVuNkVP2yomumDrwb+cLXV741Qv06l3AkfRfSj1xCnfoN4F1H+dMxy9ypoqejR8y4AhWU4+F7rDqiOaEGDx4EqpQ9fvx4LFz4GSZNerNMN44zRkw4AuWi6WkaCVaWFZHDTRQdXof4CS9gTvolGC/txqyRf8awcS9g3LDH0PvFb3D8D665ai9njNFWizNHzPBU/Yw51r59+8oE4ZRkTqP49u7dK9Yw5hzKA5HrmfjijTeQ8LMH6ta8hvPbV2DOz3UQMX01Uj4bA+//fYIlP9nbp3gdeenLMCUiCP7+zaRbm5iZSE7PQ4nYonIlKEpPQIR/CGKST4p1+iJfcbhDMpmzRsy0adNG6vZxBi03PzPmLJQPQt/X8p996lo9dky7RRbddcby6kZxIHLz6A/4OsMbf3nrbUSH3ETGlh2msKE9HunWFi169kW/ew8hafcJ+4b2Fu7ErOFTkdYxDpszc5GbswvzmqRgQtTrWJx9VWxUiaI0fDp5DjLFol5VlkymF9nZ2U4ZMeMKWm1+ZsxZ0tPTpONO+c8+dXfQ0FitorwQriGif4oDEeOVIpzDPWhynwE1Cg9i61rTiTL0EXS531FFzEpQmL4FScWdMDQ6AoGepl3zaIKeIwcjFPux48DtCZcsK0D6p+8jPlP/w7CojoXex7VTPY6OHTuKJX1w1nBjxrSMWl/fffddPPvss2LNnajFhKo+a5E9NUSYNigORO5q/AC63PUrdv6QgaM/bcPm4lpo1b8D7q9RjJNb1uF/F5vhsQeboqbY3nqXcWTvTyg2tEBAo1pinWkHm4egl08+UncfRaFYdyfqklmMyfHAC7FDoffpyqiORV7eGbGkT3qsx0F5J3qboI8xe1EOCOWCWOpGlXPWaLg8baM31DIrT8xHifOUQM+0R3EgUsP3ETw/IRh74oai1+gF+K3+X/DaoCAUf/cuej2fiEsRr2BsD3tGSFxF4flioLY3vOqa7ZaHAfX8DSg+U2AKVSogdcksBGInY9wjTcRK/aIhvFpuDlWChiDT3+EM9er5OOWAQq1QXFWVVQfmyd7ms+qWp6duyopmL69Xr570kxLnaVQcsx+1HFMLsqMoDkSosmrHVz/Htm8WYfb8L7Bh47uIbFwH97Z+AtM+ScbahCFoVaeG2NgWV1BwxkKbh0ddeDesrPtHdMkgBu+P6Qh3GElOQ3iPHDkilvSJDgj169cXS47l7X2vUw4oVF2Rq6oyd0dBh7OSvdXkjrOXaxW1HDty5KLyQITU8IRfl74YGNkTbcQEdx5+4Rjypw5orEoNkdtdMrHvj0IY5ZW4AWoi/fHH24WE9Ib6nOmA0LSpvgrclZ9dlDFWOiM45XxpFV300HwxTL9qGE3E/SoYcePcPqxbsRKb9v6KOweX1kXb6HcQ293WuhHnsXVKFEatHYTkPa8hTE42KclCYtRAvNMwDrsWRsFXrJYU7Ub8X0ZjQ//P8E1sZ6k15Eb6THSKSkSnhLVYGHX7w0lDgSuyfPnX4p52DBnyFBYvXoratR2VDOw6p06dxLp16zB27PNijWM56/kXLPgEkZGRaNaMD2rMfW3fvk362aNHT+nnsmXLpOn8H3zwQWm5PPpe0JD5gwcPOu07bSv6W2bPnoWXXnpZ+nvouGl+PDc/Vsj3ifn33Pz14GOAMuavE73mubl2jvKkQESR65nGRU+1Nfr5tTJ2f/IZ4+jRz5W7vWScuf2s2NgWl4xpM/sZ/Vq/bUy5eFOsM/kjzTizfVNj68kpxotileyPtA+N7f2amvapgtvoVcbTYtuK0HZaNGnSJOPhw4el+zt37pR+6sWqVauMc+fOFUuOt2LFcun1cbRx48bdes31Rm+fEWfj16Ms89eDvp90k5kfayyh39NtyZIlYo120N9Bx3D57yl/PKe/Sz5WyPflv1d+TcxfD/l31ZE13xnz18kR51DFfRk3j2zHsh898Oj0NUhJSpTK/5a9zbKjNYTURcsOXWEoPoqcM9fFOqDk+D6k5BsQGNj4jvyPmmGvIcMUiVE0Jt+OJb8GH9O/fgk/ILd8CwpzCeriCAx03ugTL697nVJ91lkF2BjTM+r2oO4PnsuFOYvypIo/ruMyGqNDm8Z2DNGtjAe8wnpjkOF7xMV9jayiEqAoC6sTVyLDEIHn+jW3MqFF3+jLr9eKgeVLRTual5eXuMcYczaaJt+dk0CpaBvP2qsuxef2uwLDMaz9aXy76RdcctaUMl7d8PKyOAw69R76BvvDP7gPJqSFYNqySRjYpLS2COWAhOq4hLtS9OXXKz22LHAxM8b0iye80zfljQw3PeDdvCmOz3kGkSMm4oP4mYgvc5uNr/cViI1tVQu+YcMxbX3W7e6W9dMwMsz31o6WdsfsK5OIaq6q3+sFjd7QY/EdvZ7QuZgZqy6ovo95CwB1u1Q267d8ktfbTNpMP5QHIld+xY/f7sdNFOPE9mWYe0cg8jm2neIZUR2Fujb0WHznxIkTuivtzlh1Uj7oqGqovby9s2bSZkx5INIgErOOl00MLXM7thX/6OacAlbVEVUJdEZCprPRTJ2uKApGtQ1o/gtHoToJXFWVsTtRkJKQMFsq986YMygPRKiOSN5PWPbB3zA2ZjRizG+jn0SPwO54c6u+50fREqoSqEdUmt5Zpd3N0bwXNP+Fo+hxbhzGXCUqKkrT5d4r61pi2qc8EPnjEJZOGI1Jc7/E+o0bsNH8tmk3Tnd6BqO6ch+iI9FkTTRpk55wlUPGmKvIFz1y15Iej5nMikCktI7IH2g/cQ2ysv+L2Ka10DQ2GQczv8enYzrh5vEilNRxzsDe6kqerEkv5K4SvbbmMFYduMNcVrLyLSF6O2ayUooDEeOVIpxDAHo/3BJ3126GB8Mb4tcfsnDW0AL9xo3FEwWr8MX3v8FZI3uro+DgYF3VEjl58qQupwonzpwtmDEtodYDPc9lxbSD5hVzBMWBiMc9PvDHdVy6/IdpyRONmjcCDp7C2etG1Kjni+ae57Hr+DncLN2cOQBVMiwqKhJL2kczelY0nbgecD8zY/pC31lrywVcuHBB3GP2OnXKzjlmBOWByP0d0L/Vb0hOXIJN2dcR0LY9DBe3Y+O2w8j98XtsyjfAv57BiqQTVhUav0/Jn3rh6lYFR05DzVh146irWTVR686KFSvE0p1OnMi5I2eNp3JwHEe12CuPG2o9iGcS3kKn9PmYlXoWng/9FW9F5OPT0X3QfdiHOPjgc/j74y04EHEgvfXlUqJq/fquGcJNLS/UAsMYs96IEaMcdjWrZUVFxbquUq1VFNxRkOcoVsQNd8EzeATmbtuMOU8EwKNOGwxLWIm1ixcgYf4KbPziNXRvwMmqjiT35V67dk2s0S5KVK2qMBJjjDH9o+COgjxHVf9WHoj8cRxbl29E5hUf+N1XW1pVo05jtHs0ElGR3RDo/f+kdcyx6Mrl3LmzYkm7qKYH7ateUfE4LtjEqht36J5hrkfl/ikIcVT1b8WByM0jmzDtb/+HJRkFPDLGhWjkjB66IKivkPZVz7RcsIkxR6IqwlRNmLpn9HwBwdRx//33Iy0tzWHVvxUHIjXqGHDfXSW4VnyVR8a40AMPPICDBw+KJe2i6Jj2lTGmfVRFmKoJM2YL6oI/cybPYROcKg5EPBqH4Ym+Hkie8GcMiJnspNl3WXkUedKMtlpH0TFPisUYY9VDQsIsTJkyRSzZR3mOyKXj+HFTrunOeWRuXMyz77oIRZ6HDmm/RYSSanlIHGOMVQ/t27eXbo5QeSBy9Th2rF6DHceLq559NzcdsyKbiAcyR+rS5SFNz59A+0ZzPLiSnCzlCGrsP2OMsVKVByIFPyPxpclI/Nlx060z6/n6+kqJZVpF+xYQECCWXIO6gRyVsU14jgpW3VDVZi4KyLRAedcMU42/v5+mE8t4Cn3G9EWu2qz3aRkcRS77TkUZeRi/63EgogONGzeRyqdrFU8YxxjTCmtbeSi3jcq+EyrKyMP4XU9BIHIRe+b/HTExo6u4vYz4HdrtPtAzGvOv5VLvtG+uKu3OGGMV4akf9ElBIHIT+ZnbsXHjhipuqThWSDPzMkejfAgalaLVKoi0b3ou7W5pYizGGGOuoSAQ8UG/hB8sjJIpf+NRM85Eozq0OEmVO4w44YmxGHNPlJDLtE9jOSLXkZe+DFMiguDv30y6tYmZieT0PJSILe5ky2P0JyQkxKGzHTqKGiNmGGP2ue+++6TETHdHCbmUmMu0TVuBSOFOzBo+FWkd47A5Mxe5Obswr0kKJkS9jsXZV8VG5kpQlD4f0VEf40zkIuzKOYXczM2Y3ogeMx4fp7tPpVe6Ys/LOyOWtINHzDCmPz4+PlJiJmNaUHkg4vkA+seORf8H7hErnKkEhelbkFTcCUOjIxDoado1jyboOXIwQrEfOw5YSoTNx56VK5DpMxQvvNANvvTXeAYhauLrGGnYjQUrM1BYuqHuycPttIZGzFBxMcYYY8wWVQQiIXgq9iU8FeItVjjTZRzZ+xOKDS0Q0KiWWGfaweYh6OWTj9TdRy0EFfXx6LQdyM14DWE1xSpS1wv1awPFZwpMz+oe6tatq8mRMzT+Xo05Zhz5elCFVg6mWHVDuV1aLgvgDNQd5aiJ2pjjaKhr5ioKzxcDtb3hVddstzwMqOdvsCqoKDm+Dyn5gE9bf1Oo4h5oVIoWR87Q+Hs15piRXw9HoAqtPGEfq26omrBcyKu6oO6oli1biiWmFRoKRK6g4IyFjhSPuvBuWFssKFGAjDX/RQYewasDgmHeUKJ3Whs5Q7MC89UFY/oUHBwsXUhwMUKmNg0FIo5AyauLMTn+V0QmTMeowDpivXugkTMHDhwQS+o7f/48X10wplOenp7ST+rmZExNGgpE7oZ3Iy9x30zJZRScvSYWKmMKQrKW4dXhc4DYOZgR5e9uURYCA1s6bMZZR6AKhnRVpXdLly7m+SVYtVPdhrXyd1y7NHSurgOv+gbgWgEKL5tVACkpxoXcYhgaeaPiuP068nYvwKtR7+HUU3OR+EpnlMb67qVNm2CkpaWJJfWdPn0avr6NxJK+8fwSrLqh3K4RI0ZJNUWqA/6Oa5eGApG6aNmhKwzFR5Fz5rpYJyeeGkxfmsYVBBeFyEqcgF6D40uDkH/2KR3G64YoQfPMmTzk5+eLNeo6efIk7r+fi5kxplfvv/++VFOEMTXVMJqI++or3IopXUcgKXw6kj8ajiBkI3n6G5iQ9AASNv8bUU1uD+stdR2/Jf8NfSasBCJnY/PcKDSpIAihiqsVWb78a3FP+xYs+ATduoXjwQcfFGvUM2TIU1i8eClq17Ymmdhx6P+3970rLCzElCmTMWvWbLGGMaZX27dvk3726NFT+knHy8jISDRrVjqXFB0z+vR5DGPHPi8ty+RjiSOOKdUNvWY0zYtdKBDRjmvG02lLjZP7tzL6+TUtvfWfbFycdtp4U2zxR9qHxvZ+7YyjV+XSgnFme7GdpVv7D41pf4gHVoC207qdO3eKe0bjqlWrjHPnzhVL6jl16pSxZ88eYsm15NfDEe/d4cOHjZMmTRJL+mX+GWH8epRXXV4POj7STUbfbfqOy+iYIX/fzV8T+Viih/OBs9j6GXHEa6axToxa8A0bjmnrs25Pprd+GkaG+d7qQ6oZ9hoycvdhYZQpwq0ZhtgMedI9C7fyhc7cACWYpaSkiCX10IiZ8PDuYokxxhizjZtmU7gvSjCjQl5q54nQiJkuXbqIJXVQDROqZcIYY0y/OBDRIcp0P3TokFhSB5WGVrsQEtUwuXzZXYr4M8ZY9cSBiA717t0LP//8s1hSB83Z4OdXmgCmZ1Qgzh1qoTDGmF5xIKJDVE9EzTwRuTvEXYb9yRUmGWPVE02fkZ2dLZaYq3EgokNq1xM5ceIEIiMfF0uMMaZvNAEgUw8HIjpFgYBaeSLHjh1DUFCQWGKMMW2iLuTqUjlWzzgQ0amOHcOwfft2seRaqampbjNPBZWp9/Q0iCXGmJ41bNiwzHxcNO2/eRdy8+YPVDja79y5c9LvmetxIKJTas07c+XKFWnqcBpG7A64TD1j7qNBgwa4ePGiWLpTZbWPzp49y7WRVMKBiE6plSdy+PBhKbFLK+wdvnvhwgVxjzHGmBo4ENExit5dnSdChczCw8PFkrqoiZX2xx7u1LrDGGN6xIGIjtGJmBJHXYkKmbVr104s6Rt1MzHGGFMXByI6RgmjlDjqSkuXLkarVq3Ekn5YqhFw6tQpTXUzMcaci4owcnK69nAgomPNmjWTuhZcdWVP1VzpxH333XeLNfqwc+dO9OnTC8nJyWLNbVw/gLHqY/z48Xjssb5iiWkFByI6RgEBBQaUQOoK+/fv10x+iFIUpE2a9CY+/3wRvvjiC7G2FJd3Z4wx9XEgonMUGFCA4ArUDaS3/BDqfgkObnvrKqj8bL1c3p0xxtTFgYjOUWDgijwRuX5I+/btxRp9oCJFAQGldULKz9ZLhY+oABJjjDH1cCCic5Q46oo8kb1792LEiFFiSRso6Ywqo1aGihTJ5egpUe3EiRzpPqHCR1QAiTHGqjqWMOfhQETnKE+EAgRn54lQomrv3r3EkjZQRVSqjKpU48aNUVRULJaAI0eOoG7dumKJMVad7du3r8Ly78y5OBBxA/TloZEhzvTVV19KZeX1xnwuGeqGoToosh9/3ClVqGWMuR9rWonpGEoty0wdHIi4gc6dO0uBgrNQgmejRr66PGmbzyVD3TBc0p2x6oES1bXWncws40DEDVCAQIECdZ84Q0pKCgYOHCiW9ItKuctXPVTg7KGHukn3GWOMqYcDETcxbNgwp3XP6HHYrhI0ioYxxpi6OBBxE/3798f06dMcPhsvPV9m5gHdDduVpabuwH333SeWIBWAs1TunTHGmDo4EHETNHpm0qQpWL58uVjjGOnpaRg69K9iSVsowKBAozLHjx+Dj4+PWLpd0p2rqjLmnuQ8MPOaQUzbOBBxI0OGDJFaRcpXD7XHggWfols3beZSUIBBgUZFqOWjskntuKoqY+6F5t8iS5cuNR0bjls9HLd58+biHnMlDkTcCJ2YExJmY86cOWKNfeScE712y1DxspCQELFUFlVV5Vk4GXMv1DI8c+ZMTJ78plhjHa4rpA4ORNxMVFSU1DRpaaZZa9AY/I8++givvvqqWKM/2dlHEBhYNiGVumOoW4aqqsrDehlj7sOW2cF5qgd1cSDiht566y3Ex8+0axRNQkICOnbsqNluGSVo2HH5YEPujimfxMoYcy/WzCXFUz2oS2OByHXkpS/DlIgg+Ps3k25tYmYiOT0PJWKLO9nyGPdGdUUSEmZh6NCnbQpG5s2bh5ycHEyYMEGs0R8a7UOVU6l2iDm5umr5JFbGmPug3LA5c2ZZHWBw14w6tBWIFO7ErOFTkdYxDpszc5GbswvzmqRgQtTrWJx9VWxUji2PqQYor+Orr1ZIwch3320SaytHJ+/x48dLcy5QP6stTZxqeuSRnrf+VqqoaqmqIh2Yli5dzBUXGXNj8ug4a/GUD+rQUCBSgsL0LUgq7oSh0REI9DTtmkcT9Bw5GKHYjx0HzontzNnymOqDulV++OEnaeTL5MmTK6y8SqNsqBUkNDQE4eHh0n29BSE0Qoaqyz733LNSfgu1BFnKmKcWEqqoykN3GXNfNNM2kUfRVIWOC99+u1YsMVfTUCByGUf2/oRiQwsENKol1pl2sHkIevnkI3X3URSKdbfZ8pjqhSL8//znP9JJedq0aVLXFQUl8u3pp5/GsGGldUIyMvZhxIgR0n29kAuUnTt3TsppoWWaY4LyQ2gOHkvodejVS1szCTPGHEdOUrfmgkqvowPdgYYCkasoPF8M1PaGV12z3fIwoJ6/AcVnCkxhR3m2PKb6oS8jjaZZsWKFFGw8++yzt27x8fH4/vttUpeMHnMm5CbYY8eOISgoSGrRSUpKktZV1MxKVz/cBMuY+woP784tHDqioUDkCgrOWGi/8KgL74a1xUJ5tjymeqNgg07E8s1dTsiZmZlSMaKuXbtKSWruMEkfY8w2dPHFLRz6oaFAhDHryXVBaDgu9QtTcPX++x9g8ODBYgvGGGNapqFA5G54N/IS982UXEbB2WtioTxbHuMYlGthLVseYw9X7qOrHyejWYEnTHhJaoqVu5Yoz8VS37Ar91Gt18Mart5HV76OtnLlPrr6cbZw5T7y63EnV76OaqphNBH3VVaE9PjBiFrQFYt/+ice9RIx0o10xHcaiAWPL8VP0x5F2bBD+WP0+OYwxhhjWpebe0rcsxEFItpw03gx5W1ja79hxkWHr4h1prWHFxmf8GtlfGLRIdMW5dnymLL8/JqKe9ax5XGu/L8I72NZvI9l8T7eifexLN7Hsngf72Tr48xpqGvGA15hvTHI8D3i4r5GVlEJUJSF1YkrkWGIwHP9mlvoR7LlMYwxxhjTCm2dp7264eVlcRh06j30DfaHf3AfTEgLwbRlkzCwSWmdkBvpMxHqH4KY5JPSspLHMMYYY0ybNJQjwpgylO9jd58kc2v8GWFV4c+IdnDPBWOMMcZUw4EIY4wxxlTDgQhjjDHGVMM5IowxxhhTDbeIMMYYY0w1HIgwFRQie3MCYto0kzLX/duMRnxyOvJKxK9NSvJ2Y8mUJ0p/b/M215GXvgxTIoJubdMmZiaS0/Ng9jRMgxzz3irYpiQP6UumIEL83t+/C2Lik5Ged11swLSvAOnxT8I/Jhl5Yo1EyXurYBslxyJmJ+qaYcx1rhl/XTXB2NpvgHHyqkPGS6bl0ynvGvv7tTL2n7nLtEzOGVMmhxv9+r9tXHX4ovQYeZvb1XIVbHMxxTi5tel5J68yHr5kWnPzV2PK2wOMfuUq8TKNubTLOLN/K2Pr0fOMu05fM624aDy86u2ynxEl722V28iVmeXPomnN6e+Mb5v+b78nFhkPl37QmKZdNB5a9LzpPWxq9Bu9ynharFX23irZRsmxiNmLW0SYa5Ucx8bP16M4dDCiBwbBE7Xg++gzGNevNjL/sx2Hb5i2KfwFm5LOIXTocAwMpJmCTNv0fApDQ4GMHQdxlp6nym1KUJi+BUnFnTA0OgKBnqaPukcT9Bw5GKHYjx0HztGzMM0xvW97vsWCzACMfWEEOvtSUUIvBEZNwJsjGyBzwbfYU3hDwXur5P3PR/qmLWafRdMmvuEYObST6UO0BwfO0oeRaVVpS8V4/Pt6KAaVzndpRsl7q2AbJcciZjcORJhreQQhenUWcldHI7CCT9+NI+lYW9wA7QLuu/0B9WiKkF4BQGo6DhWWKNimCEf2/oRiQwsENLpdYdejeQh6+eQjdfdRFIp1TEs84PXoVBzM3YDYMDo1yOrAq74BKM5HwWUl7+3lqre5kYu9a3NgaBeARrc+RHXQPKQjfJCB3YcKxDqmPSex+q0Xseyu5/BedBfUF2tvUfLeKthGybGI2e/Wa8uYOgqRnfwp5m+sg8h//gWhNUtwubAA12BAfa86YhtSE/fUMx1upBPRDQXbXEbh+WKgtje86pp9zD0MqOdvQPGZAtOpiulGya/Yl5ID+DwA//o3FLy3V6ve5nIhzl8zbVLfC3XFr4nHPT7wN30uzxRcEWuY9tyLti98iW+m9oGvpbOYkve2ym2KFRxnOBBxBA5EmGpKshMx0D8YfSZ8jhP9nsPoh3xNH0hTIFKQD9MppBzTl9+7nrivZJsrKDhjoc3Doy68G9YWC0wfSlCUsQFfZQChrz5uClaVvLcKtrlcgDN3fohMJyJvNBT3mVZ5ITCshdSdYpGS97bKbZQcZ5gjcCDCVOMRGI3VuaeQm7ML85qsxeBef0PybzxagZVTlIZPJ8/Bicg4zB8VxActxtwMf6eZ+uQkwuL1+HzjCdTx9oFB/Oq2G7hUcEHc90DdKre5G96NKLmsnJLLKDh7TSwwzSs6gMRXX0Q8XsSyGQPRRDpiKXlvFWxT1xuN7vwQoeRSASch6p2S97bKbZQcZ5gjcCDCNKG0ObQYuReuoI6XN2qb7p8vvCp+S0xf/gvnAYMPvOvWRN0qt6lbmtx4rQCF5v24JcW4kFsMQyPvMv3CTHtK8nYi4dVn8c6pgVicOA5hNPJFIhJXK31vFWxT1wv1a5s2OU+prbeVXMpHLrzQyPtusYbpjpL3tsptDAqOM3wKdQR+FZlrFW7FlDbN0GbKVpj34JdehTTBQ83ro1bLMDxuOIf9Ob/j1ilETlYMfABNTSekmlVu44mWHbrCUHwUOWfMihMd34eUfAMCAxtX3L/MVFaCoqwlGNvracyQgpC/41FpGK+sroL3VsE2Nf3R4fEAFO/PwZlbH6KrOL4vDfm4H4FN+ROiW0reWwXbVH2c4VOoI/CryFzLKxSDx3ZGcdJXSMoSoUhRFlYnrkRG8AiMfawZPLweRN9BDZARF4/F0jaFyF69DF9l3IvI53qjBX1qq9zGA15hvTHI8D3i4r5GVpHpMCL/P4YIPNevOX/4Narkt9V4I2oSNmIwEj4vH4QQJe+tkm18ENa3NwwZcxG3+ACKKADKXo/Er/bAEPkU+rUwHynB9EXJe6tgGyXHImY/UdiMMde5edqYtupD4+jWTY1+VBHRr7Nx9MyNpdUvhZundxkXT6YqmPI2A4yTF+8ynjYrZVj1NteMp9OWGidTpUR5m/6TjYvTTnNFRM26ZEyb2c/sPS1/62ecmUY1MJW8twq2oc/i4snG/vLvqXrr5KXGNKmiK9OFP9KMM9ub3rsylVVNlLy3CrZRcixi9uHZdxljjDGmGm5YYowxxphqOBBhjDHGmGo4EGGMMcaYajgQYYwxxphqOBBhjDHGmGo4EGGMMcaYajgQYYwxxphqOBBhjDHGmGo4EGHMZa4iO3E4/P37Iz69SKwrVZKdiIH+zeDf5h1sLbw1q4WJ/JjhSMw2n3jLDeUlI8b0GoTGp+OGWOV8pa9v+bmPXK8ERekJiIhJRp5Yw1h1wYEIYy5TBy3C+yIUOUjZ9+vtSbRMJ8OjqZuQQXeLt2BTer60ttQ5HNixHwjti3Ce+8TxSk4gNSkPg/o+CC+xyvUKkb15Nl4d/i9kijWMVScciDDmQh6NAtDOUIzs7NO43SZShF+zT8Dw9DP4q0+5mT4Lj2J3aj4M7QLQiL+tjld02vRe+Ko/0+5dYXh93ivwEYuMVSd8aGPMlaTZPANQvDYdR+T+h8JfsCmpEOHdB+NPjzdARtIPOCoikZIzOdhfHCCu2Gl20K1InPIE/KkbR7o9gSlLdiOvpASFW99Bmzu6cETXzq0un+vIS1+GKRFB4vFdEBO/Cdk0Oy2RukdCEB3/FZbc+n+CEDEludw25btQTiI5JgT+oTORfuOGaZOXSvft838jpo3Y1zajkbA7C1mbE26vi3gHydllO0WuHViH+Jgu4v+W/z7xS5OSvN1m+9YMbWISsPnWc8j/d3/ExPQX21TUrWV6zdK3ICmwktamkjykL5mCCPF/ldkf6XWg12a22f6aXs+EHcjO2lT2b0jOMgs8y/NC4KPdEeh1l1hmrHrhQIQxl/JG686hQH4a9h0vPTneOJKOtcXt0L1tazEt+R4cOEun+Bs4e2APMnC/dMUuTY8/8Hl8dder2JVzCrk5e7DyjYZImhKLWdvyxbT3e5CUeuJ2i4rU9bAHhkG9EeYFFKXPR3TUxzgTuUh6jpxd09Fkw0sY+MZq/HbrQfnYEr8MhzrPQGbuMexaPBJYYtpm+jYr8yj2YsmKaxiRcgy5masQe/8OzBjcB1Ff1sLzpnU5u/6DaCzHhNeTkG0WaBRvXI2s7ovE/90VaVNGIPrj3aUn8qLd+Dh6BN4/8zhW7jI9b84uzGuyCc8OfBvJv12XHl/qAFIxApsyj2DX6smIsBho5CN9UyoCBz1cwXTuBUj/eDyipuxDl8W7kJObiU1Tm5pe7xEYuzhLvMbFyFyyARdGJJt+/wuSY5ti44yh6BP1Fe56fjVyTPu3ONr08k2Yim+yj5QGa7eCGrqFICb5pPRMjFVXHIgw5lI10bBtJ4TiBLJ/pVPrVRzfl4Z8KQekLrxahyHcFHrsPlRg+l0BDu3OEPkhwNGNX2NdcScMHRkOX/rmevii4596IBA5WLs3Fzek1pZyLSpHf0BSRoPSFpWSbHzzzznIDH0BE1/qJj2Hh28vvPHmEGDdDMzZdr70QSaGka9jYlQQPFELvj2fwtBQQ9lWHEUCMPLNcXjUtxbg2Q4DhnaS1g0a8Rd0Nq3z8O2KqP4BwK3Aq5QhcjKmjmpb+n8/+hLejw1G5oJvsafwMrK/+QjxmZ0wcWK09BzwaIJH33gdI7ESk+bsNAuUfBA+4FEEedaBb2jb0tervJLfkbMfaBdwn+UDYWEGVi7YLb0WbzzaxLSNF4Ki5+NgbhZWRwfdeszt33sjdMCfTe+tad2gkYju7AsP0/51j+pl2pv92HGgNqIW7kNurimIvHXbh4VRfqVPxFg1ZfH7xxhzHo/mIejlI4IH0WLh0ysEzenb2LANuoeeQ9KmX1AonSjPifyQOgiMXmY6cc1D+K+bkJycjOSkmRg78K3SJFeJj2hR+S/WZFAgI5JgDb3RN8wHOHsQOzKKb/9fEtPpVQp+xP6ItbXre6GuuA+PuvBuWFssWMOA+l5yS0RN3ONdz/QzFJ1be5eussiAwIfamAUOXmjZoR0MxT9h75ETpYm7Ph0R0tyshcOrBTqH+5QLlBqjrT/9fxWTgrTs8NLXxoLSlirT/gQ2NgVFFTN/rTzu8UZDCoI6t1Ax+ZUxfeFAhDFXq+mPDo8HID9lH44XUrJkAzzewd90qjbxuB/hgzqheH8OzuRR4CBaM0y/KsnbjHciOqPPqHexhrp1PAIxYt7/oR89TmIKKqTumd1YsDLDFMiYd8t4oORSAc6atsqPH4gHzLsHuryEjaVPoAG10dC7rtmByQN1vbxNa01uFqPg7DXTHzATUQ+Y7b//w5iw0XykkRKlQVq2eG0qVn5/nKdm2GvIWBgFX7HMWHXBgQhjLifyRLKzsX/LJiRBtFhI6qB5SEf4ZPyI7Rt/QKrIDwHOY9usfyDxRAQSftyBhbFDERX1BHo2vUsKLm6Rk2GTtmB32o7b3TKmX5VerRsQOnUzcsp0D5TeMmLDSoMhTSnB5cICmMIP4C5DactM6HvYTDky5f+GjNcQpvgPoJFKeVW2dlAeyZ7j51xY14Sx6ocDEcZcTuSJFH+LBQu+R3HgA2jqefurWLNlGB437MSKr1JRfKt+yBUUnCkEAjugLeVGSEpQ9OsxZIulUqJ7pvgnfPnJitvdMkTq9kGZHBJSWkwtCAMT5QRMG4hhxvbLR+ruo2a5HpRQugXFhq7o0PJ+tO3ezvQHbELqUbNRMCVZSBwYBP+BiWWSXisljVTyxaDw+ys8CJa+D8C184W4LNYxxhyPAxHGVODR4mEMCr2GzMxzCC0/akNq1fAy/S7HrH7IPfBv28J0EpbzP2gY7peI+2A5ik1Lt0+WcvfMAWzceOBWt0zpr5qj33MRMGTMRdzsndIQ1JK8nZgdNxcZwS/in38JVHZAkAIaA/IXLMDSLFPIUJKH3YlLkEQ74gDFSz5EnDTc1fQ3bp2PD5ZcR+T0GPT0qosW/Z5CpOF7xMUlYnfe9dL/e/a/EJcRjNh/RiFQ0R+gYNgu8QrF4LGdpf2ZsfU306NMgV/WEmnosfqVWBlzH4q+towxB/O4DwHtGpjudLJwVS66bmiEya2Kn94IG/MBEkbeQHzUg/D3fwBdJmci8G/TEUsjWiinRG4NEN0zZR9PaqFJ1L+RkvwKGq17Fl0CmiGgy7NY1+gVJCeOQ5hZq0ylPIIwasEivBGejnf6BsM/YCA+udkBg4INYgN7GBA8MhyYPxDB9DeO+gkdE5ZgRpS/9Bp5NInC3JRVmNxoLQZ3ecD0f3fC4HW+mJw8D6+EVZYEa+46zuQcpeEyVRSJM73mr8xD8rQQ7BrVBQH+/gjuuwKNJi7F6kk9ORmVMQepYTQR9xljjDHGXIpbRBhjjDGmGg5EGGOMMaYaDkQYY4wxphoORBhjjDGmGg5EGGOMMaYaDkQYY4wxphoORBhjjDGmGg5EGGOMMaYaDkQYY4wxphoORBhjjDGmGg5EGGOMMaYaDkQYY4wxphLg/wOaI/oytRPPDQAAAABJRU5ErkJggg=="></p>
<p style="text-align: center;"><em>NIST Mass Spectrometry Data Center Collection © 2021 copyright by the U.S. Secretary of Commerce on behalf of </em><em>the United States of America. All rights reserved. Available at: https://webbook.nist.gov/cgi/cbook.cgi?ID=C71238&Units=SI&Type=IRSPEC&Index=3#IR-SPEC [Accessed 6 May 2020]. Source adapted.</em></p>
<p><img style="display: block; margin-left: auto; margin-right: auto;" src="data:image/png;base64,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"></p>
<p style="text-align: center;"><em>NIST Mass Spectrometry Data Center Collection © 2021 copyright by the U.S. Secretary of Commerce on behalf of </em><em>the United States of America. Available at: https://webbook.nist.gov/cgi/cbook.cgi?ID=C79094&Units=SI&Mask=80#IR-Spec [Accessed 6 May 2020]. Source adapted.</em></p>
<p><img style="display: block; margin-left: auto; margin-right: auto;" src="data:image/png;base64,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"></p>
<p style="text-align: center;"><em>NIST Mass Spectrometry Data Center Collection © 2021 copyright by the U.S. Secretary of Commerce on behalf of the United States of America. Available at: https://webbook.nist.gov/cgi/cbook.cgi?Name=propanal&Units=SI&cIR=on&cTZ=on#IRSpec [Accessed 6 May 2020]. Source adapted.</em></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the empirical formula of the compound using section 6 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>Determine the molecular formula of this compound if its molar mass is 88.12 g mol<sup>−1</sup>. If you did not obtain an answer in (a) use CS, but this is not the correct answer.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify each compound from the spectra given, use absorptions from the range of 1700 cm<sup>−1</sup> to 3500 cm<sup>−1</sup>. Explain the reason for your choice, referring to section 26 of the data booklet.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p>Soluble acids and bases ionize in water.</p>
</div>
<div class="specification">
<p>Sodium hypochlorite ionizes in water.</p>
<p style="text-align: center;">OCl<sup>–</sup>(aq) + H<sub>2</sub>O(l) <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext=" \rightleftharpoons ">
<mo stretchy="false">⇌<!-- ⇌ --></mo>
</math></span> OH<sup>–</sup>(aq) + HOCl(aq)</p>
</div>
<div class="specification">
<p>A solution containing 0.510 g of an unknown monoprotic acid, HA, was titrated with 0.100 mol dm<sup>–3</sup> NaOH(aq). 25.0 cm<sup>3</sup> was required to reach the equivalence point.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Identify the amphiprotic species.</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>Identify one conjugate acid-base pair in the reaction.</p>
<p><img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAhMAAABfCAYAAABSpkUaAAAM00lEQVR4Ae3dYWwb5R3H8Z/TCm2MlooNMbvakChsMAXepOq07QVJQcmLblAl29DE6qBUG5NoNQltiVLtzaQKRB0Fja1TASVqk1FRhjM0hrSEJctYBgI5aKJltCFFGQtxUae2SbqutLWf6c6Oe75cfOcMVJ/ztRT17rn/XZ7n8/jO/9xzTx0xxhjxQgABBBBAAAEElilQs8z92A0BBBBAAAEEELAFSCZ4IyCAAAIIIIDA/yWw2rl3JBJxrrKMAAIIIIAAAggUBJZ6MqIombCCrIRiqeDC0VhAAIEVIcD1YEV0M41EwFfA71rAMIcvIQEIIIAAAgggUEqAZKKUDtsQQAABBBBAwFeAZMKXiAAEEEAAAQQQKCVAMlFKh20IIIAAAggg4CtAMuFLRAACCCCAAAIIlBIgmSilwzYEEEAAAQQQ8BUgmfAlIgABBBBAAAEESgmQTJTSYRsCCCCAAAII+AqQTPgSEYAAAggggAACpQRIJkrpsA0BBBBAAAEEfAVIJnyJCEAAAQQQQACBUgIkE6V02IYAAggggAACvgIkE75EBCCAAAIIIIBAKQGSiVI6bEMAAQQQQAABXwGSCV+iEAdkj6q3KWZ/rbz19bGxjhHNLas5l5Qe+FHuOK0DSpc6xqVxdd0cUSTSoK7xs6Ui2YYAAp+YwFmNdzUUzn3r/C/6aejQgfG0sp/Y7+fAK02AZKKKezw7+aoODV3+6E/v2afnJ85XcYtpGgIIBBIY3aMHNv5A3eNnAoUThICfAMmEn1Bot5/X5NgfNSQp+vCv9FRbraQxHRqbWsZfI6sVbd4nY4zMgWZFQ2tCxRFYaQIbFE++nzt3rfPX+slMKWlfD15S93NvLvNu5UpzpL1+AiQTfkJh3Z6d0tihMUl12rblO7rv/m8pqrSGDr2qyUX3Ni8oPT6grtbbC7dCY62P6+WJhUGRpYY55jTx8uNqjeVuoeb2ORVWMeqNwMoQqFmvr235ht3W9Ikz+k+h1cXnsz002tqlAedwyNkJjfR2qKEwbBJTQ0evRgrXivzB3HENHeodmRADnwXs6lswrpdkJa+8wi6QOdZjGiWjaKcZns0YMzts2qMy0haTSJ12NC9j5lPdpt6Kdf9EHzLJ6Y+MMRfNTPLB3PZ40szYe39kppMPmah7n8J6vUmk5h2/h8UwCnA9CGOvWXWeN6lEvZE2mHjy/eJGzB82PfFaI9WatuSUydhbS5zPhevAaZNKbFl8nbDO+fpuk5rPHclkpkyyzTq++5pSa+I9hw1XheLuCMua37WAOxPVlx9KcgxxbLtbG9fWSGvvUNO2OkmuW5vZCT23K6FRRVXfOaSZjHUbdFrDnY1Seq92PDHmfRt0bkxP7NirdNF+M3q9O84wSFW+p2hUOAWOq6/li4U7jvZDmGtu1/Y+Kd69T7u33ij7QyD7ngaftB6u3qJE6rQ9HJKZTqrNGtNMv633TlyQLh3Xn/e9ZN/tbB8+mRsymX9difqoNJrQrucmlFVWc6NPakfvEUXj+/XOfEbGZDT/zn7Fo0fU97ODemNu0a3RcNJS6yIBkokijipZOfuWft+fH+JoukNr7WZdp41NjfYHfbr/T0otnNAf/kN/sR/SvEc7dzYoar0jatZr8yOD9sVi5rHN+f2LbbInpvR3+9lO535Rbdreqm08VFGMxRoCFSdwRH2Jp/RsKj+jo+ZWtQ3OyGSeVsP0iAYGnlbn93eo1z7H53Vy9rxU8znddKf17NW49tzVoNaugxoYmtYtXePKmBkNtt2qGp3Tu2++Zs/4Svc9oNvWrFIkskprbntAfdax0kMaTDEUWnFvh4+hQiQTHwNiZR0iq7k3XlD3qHXmWif99fm/Slbp2rsezU3rdJzQl2be09+W0YDs/Ckdt/aLXqd1n3G8ja6+VtdfvYwDsgsCCHwCAh4PYJpZHUt2qj7dp4e3/lKj9h8Wczrau12xVTFt3NqilpYfao99DbGqtEbXX/spqeZGbd3do/3tjZKOqO+n96ulpUVbN8a0qmGXBuznJk7rn4f/VaIdZ3TizH9LbGdTWAUcnwJhbQL1LhY4pdTgUOn/C0Lj6n/mFX2QlVbHblLuUaxTOjN/qfhQJdZq1lynDdb29KSmrFugC69zszp5bmGFfxFAoPIE1upL97Roi3UCp1/Tm++eU3bief14e6/SalR7z2/1QmpGmYspJeyT/HILaqKb1PqYdddyVseGX1Ay+YwS8Vpp9FG17HxeE9lPa93n19k7bEikdHFhBknh30kdaP7C5QOyVDUCJBNV05X5hsy9pcH+8eJxzcKJnNHscGduqKP3WQ1Onpdu+IrubLTGJcbUv/+vStvDmfm/Uqwntpt6NeExxFlz89d1n3u/bFpv9BxQv31rtNpgaQ8C1SJwQelX/qCX7FuLX9ZNsat0dnpSh63mRW/RV5vu0b11n9WHhZhcu7MfDGi7PXOrSbtG5nXz5nvV3Pxtfe/eOx3PSV0eTj3e/Wv1HbVmhF1QeuTnuRkgsV0aWRhirRZO2pETcD9J6vfEpjue9UoSyJjZ4c78DIsHTXLm4uLKFWZ1RE1jzzsmY0rM5lCj6RyeNhlmcyx2XCElXA/C2tELszncMyqc61FTn3jdnl2RmU6aNnu2l3N7namv32CkOtM+fNIYU2I2h3NmSGG2iPNY1jKzOcL6brLq7Xct4M5EVWWVjiGOxk2qvWH14tYVZnUs/J8TNbqm7iEdTCVztyvze0TjCSVT+7V78/rc096LjnSV1jc/otGhbsXzD1xG490aento0a3RRbtSgAACV1YgGlci+aIOPrxJ19jPXH9Tu1/sU7s1M8N61bdrf+p3+s3Ou+1nr/oH39Kc1qnuJwd1bLjnclw+tmc4qV8052eGXFOrtr1JDfe0qz53NMn6fUNJ7W2rtX/fQjH/Vo9AJJ9xFFpkTR3KJSGFIhYQQGCFCnA9WKEdT7MRcAn4XQu4M+ECYxUBBBBAAAEEyhMgmSjPi2gEEEAAAQQQcAmQTLhAWEUAAQQQQACB8gRIJsrzIhoBBBBAAAEEXAIkEy4QVhFAAAEEEECgPAGSifK8iEYAAQQQQAABlwDJhAuEVQQQQAABBBAoT4BkojwvohFAAAEEEEDAJUAy4QJhFQEEEEAAAQTKEyCZKM+LaAQQQAABBBBwCZBMuEBYRQABBBBAAIHyBEgmyvMiGgEEEEAAAQRcAiQTLhBWEUAAAQQQQKA8AZKJ8ryIRgABBBBAAAGXQNFXkFtfMcoLAQQQQAABBBDwEjDGeBVrtbPUCvL7znJnPMsIIFDdAlwPqrt/aR0CQQX8rgUMcwSVJA4BBBBAAAEEPAVIJjxZKEQAAQQQQACBoAIkE0GliEMAAQQQQAABTwGSCU8WChFAAAEEEEAgqADJRFAp4hBAAAEEEEDAU4BkwpOFQgQQQAABBBAIKkAyEVSKOAQQQAABBBDwFCCZ8GShEAEEEEAAAQSCCpBMBJUiDgEEEEAAAQQ8BUgmPFkoRAABBBBAAIGgAiQTQaWIQwABBBBAAAFPAZIJTxYKEUAAAQQQQCCoAMlEUCniEEAAAQQQQMBTgGTCk4VCBBBAAAEEEAgqQDIRVIo4BBBAAAEEEPAUIJnwZKEQAQQQQAABBIIKkEwElSIOAQQQQAABBDwFSCY8WShEAAEEEEAAgaACJBNBpYhDAAEEEEAAAU8BkglPFgoRQAABBBBAIKgAyURQKeIQQAABBBBAwFOAZMKThUIEEEAAAQQQCCpAMhFUijgEEEAAAQQQ8BQgmfBkoRABBBBAAAEEggqQTASVIg4BBBBAAAEEPAWuUDJxXhO931UkslEdI//2rJhVmJ3oVVMkoljHiOaWisoeVW9TTJHYLo3MZZeI4vcF9hRWga1C/N5b4kS5QsW851bCe47rufWhVomfVx/PaR8xxhjnoSKRiFxFzs0sI4DAChLgerCCOpumIlBCwO9acIXuTJSoMZsQQAABBBBAIFQCJBOh6i4qiwACCCCAQOUJkExUXp9QIwQQQAABBEIlQDIRqu6isggggAACCFSeAMlE5fUJNUIAAQQQQCBUAiQToeouKosAAggggEDlCZBMVF6fUCMEEEAAAQRCJUAyEaruorIIIIAAAghUngDJROX1CTVCAAEEEEAgVAIkE6HqLiqLAAIIIIBA5QmQTFRen1AjBBBAAAEEQiVAMhGq7qKyCCCAAAIIVJ4AyUTl9Qk1QgABBBBAIFQCJBOh6i4qiwACCCCAQOUJFH0FufUVo7wQQAABBBBAAAEvAWOMV7FWO0uXCnLGsIwAAggggAACCDgFGOZwarCMAAIIIIAAAmULkEyUTcYOCCCAAAIIIOAUIJlwarCMAAIIIIAAAmULkEyUTcYOCCCAAAIIIOAU+B+y9/18eXVxdQAAAABJRU5ErkJggg=="></p>
<div class="marks">[1]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the amount, in mol, of NaOH(aq) used.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the molar mass of the acid.</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>Calculate [H<sup>+</sup>] in the NaOH solution.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.iii.</div>
</div>
<br><hr><br><div class="specification">
<p>The concentration of a solution of a weak acid, such as ethanedioic acid, can be determined<br>by titration with a standard solution of sodium hydroxide, NaOH (aq).</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Distinguish between a weak acid and a strong acid.</p>
<p>Weak acid:</p>
<p>Strong acid:</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why it is more convenient to express acidity using the pH scale instead of using the concentration of hydrogen ions.</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>5.00 g of an impure sample of hydrated ethanedioic acid, (COOH)<sub>2</sub>•2H<sub>2</sub>O, was dissolved in water to make 1.00 dm<sup>3</sup> of solution. 25.0 cm<sup>3</sup> samples of this solution were titrated against a 0.100 mol dm<sup>-3</sup> solution of sodium hydroxide using a suitable indicator.</p>
<p>(COOH)<sub>2</sub> (aq) + 2NaOH (aq) → (COONa)<sub>2</sub> (aq) + 2H<sub>2</sub>O (l)</p>
<p>The mean value of the titre was 14.0 cm<sup>3</sup>.</p>
<p>(i) Calculate the amount, in mol, of NaOH in 14.0 cm<sup>3</sup> of 0.100 mol dm<sup>-3</sup> solution.</p>
<p>(ii) Calculate the amount, in mol, of ethanedioic acid in each 25.0 cm<sup>3</sup> sample.</p>
<p>(iii) Determine the percentage purity of the hydrated ethanedioic acid sample.</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>The Lewis (electron dot) structure of the ethanedioate ion is shown below.</p>
<p><img src="data:image/png;base64,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" alt></p>
<p>Outline why all the C–O bond lengths in the ethanedioate ion are the same length and suggest a value for them. Use section 10 of the data booklet.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">Dinitrogen monoxide, N<sub>2</sub>O, causes depletion of ozone in the stratosphere.</span></p>
</div>
<div class="specification">
<p><span style="background-color: #ffffff;">Different sources of N<sub>2</sub>O have different ratios of <sup>14</sup>N:<sup>15</sup>N.</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Outline why ozone in the stratosphere is important.</span></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><span style="background-color: #ffffff;">State one analytical technique that could be used to determine the ratio of <sup>14</sup>N:<sup>15</sup>N.</span></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><span style="background-color: #ffffff;">A sample of gas was enriched to contain 2 % by mass of <sup>15</sup>N with the remainder being <sup>14</sup>N.</span></p>
<p><span style="background-color: #ffffff;">Calculate the relative molecular mass of the resulting N<sub>2</sub>O.</span></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><span style="background-color: #ffffff;">Predict, giving <strong>two</strong> reasons, how the first ionization energy of <sup>15</sup>N compares with that of <sup>14</sup>N.</span></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><span style="background-color: #ffffff;">Suggest why it is surprising that dinitrogen monoxide dissolves in water to give a neutral solution.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">c.</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">Copper forms two chlorides, copper(I) chloride and copper(II) chloride.</span></p>
</div>
<div class="specification">
<p><span style="background-color: #ffffff;">An electrolysis cell was assembled using graphite electrodes and connected as shown.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;"><img src="data:image/png;base64,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"></span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">State the electron configuration of the Cu<sup>+</sup> ion.</span></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><span style="background-color: #ffffff;">Copper(II) chloride is used as a catalyst in the production of chlorine from hydrogen chloride.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;">4HCl (g) + O<sub>2</sub> (g) → 2Cl<sub>2</sub> (g) + 2H<sub>2</sub>O (g)</span></p>
<p><span style="background-color: #ffffff;">Calculate the standard enthalpy change, Δ<em>H</em><sup>θ</sup>, in kJ, for this reaction, using section 12 of the data booklet.</span></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><span style="background-color: #ffffff;">The diagram shows the Maxwell–Boltzmann distribution and potential energy profile for the reaction without a catalyst.</span></p>
<p><span style="background-color: #ffffff;">Annotate both charts to show the activation energy for the catalysed reaction, using the label <em>E</em><sub>a (cat)</sub>.</span></p>
<p><span style="background-color: #ffffff;"><img style="margin-right:auto;margin-left:auto;display: block;" src="data:image/png;base64,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" width="657" height="313"></span></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><span style="background-color: #ffffff;">Explain how the catalyst increases the rate of the reaction.</span></p>
<div class="marks">[2]</div>
<div class="question_part_label">a(iv).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Solid copper(II) chloride absorbs moisture from the atmosphere to form a hydrate of formula CuCl<sub>2</sub>•<math xmlns="http://www.w3.org/1998/Math/MathML"><mi>x</mi></math>H<sub>2</sub>O.</span></p>
<p><span style="background-color: #ffffff;">A student heated a sample of hydrated copper(II) chloride, in order to determine the value of <math xmlns="http://www.w3.org/1998/Math/MathML"><mi>x</mi></math>. The following results were obtained:</span></p>
<p><span style="background-color: #ffffff;">Mass of crucible = 16.221 g<br>Initial mass of crucible and hydrated copper(II) chloride = 18.360 g<br>Final mass of crucible and anhydrous copper(II) chloride = 17.917 g</span></p>
<p><span style="background-color: #ffffff;">Determine the value of <em><math xmlns="http://www.w3.org/1998/Math/MathML"><mi>x</mi></math></em>.</span></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><span style="background-color: #ffffff;">State how current is conducted through the wires and through the electrolyte.</span></p>
<p><span style="background-color: #ffffff;">Wires: </span></p>
<p><span style="background-color: #ffffff;">Electrolyte:</span></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><span style="background-color: #ffffff;">Write the half-equation for the formation of gas bubbles at electrode 1.</span></p>
<div class="marks">[1]</div>
<div class="question_part_label">c(ii).</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">This question is about peroxides.</span></p>
</div>
<div class="specification">
<p><span style="background-color: #ffffff;">Hydrogen peroxide decomposes to water and oxygen when a catalyst such as potassium iodide, KI, is added.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;">2H<sub>2</sub>O<sub>2</sub> (aq) <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="\xrightarrow{{{\text{KI (aq)}}}}">
<mover>
<mo>→</mo>
<mpadded width="+0.611em" lspace="0.278em" voffset=".15em">
<mrow>
<mrow>
<mtext>KI (aq)</mtext>
</mrow>
</mrow>
</mpadded>
</mover>
</math></span> O<sub>2</sub> (g) + 2H<sub>2</sub>O (l)</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Suggest why many chemicals, including hydrogen peroxide, are kept in brown bottles instead of clear colourless bottles.</span></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><span style="background-color: #ffffff;">In a laboratory experiment solutions of potassium iodide and hydrogen peroxide were mixed and the volume of oxygen generated was recorded. The volume was adjusted to 0 at t = 0.</span></p>
<p><span style="background-color: #ffffff;"><img src="data:image/png;base64,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" width="268" height="159"></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">The data for the first trial is given below.</span></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAVEAAAC5CAYAAACRFgwZAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsMAAA7DAcdvqGQAACLySURBVHhe7d0LeFTVvTbwN8mkeCAE5RDrJAHzcQskXFooWikcE4jhU+oF21ABk2JagQYLCgVBq4A3FAQLNCB3lBYkEdGeYgUSCB8IQZQqEEIQbWhufoQDIQkoJjPrrL1nzWSSuRDcRGaG9/c8ozNrr7mutf573TYJEhKIiOg7CVb/JyKi74BBlIjIAAZRIiIDGESJiAxwu7AUFBSk7hERkZ27dXiPq/NaIPVwiHwQy4uo5XhrXxzOExEZwCBKRGQAgygRkQEMokREBjCIEhEZwCBKRGQAgygRkQEMokREBjCIEpEfuoDyDx/BryODEBQUiZunbEZejVUd+34xiBKR/6l/Hxt+vQ4b7t6MUwUj8OPXfo/Rb51AvTr8fbomQbT+wEh0DdLOIN5uiRh54Ag2P3yDvN8V8dkl6tnXSjVOLO8qP8tITDz+jUq7HnyBnX9oZyuTYWuQ53Kyr0f1jiRE6mXW3N/mEiqy+tte89fvoEClBoZ61B57Da+MCrN9P9lLilx53HPjthZg/+rpTvm12zAkLnkLSwvOq0xXqHYj5g8O9VBenlmPT8QwrVf38gFUqjSvrLlYk3Tl73NVmFLwh5MCdavvQ/uac/gW/4mIG/9DHfx+sSfabCdxZE8pYJYB3fwDlXY9uBU/GTYAZu3u9g+QfaJpkDyFj7cdRIW8Z5o2AX/scYMt+bp1Ch+tmY0Zb11Qjytw9lwtLOpRI7XvY9WY2zHwt/Od8mu2I2/SKEzsNRJJO8qusHclT/Z/fQbT9/ZFwtT7kHAFLTy4xxQ8OfUCKmcuwOzmnAy/2oPdufUw9Y1B7LWKJOUvYOJPNyLPfCdG3GGGSSV/r7R/gMQdL4eustPi4NwI/f1avXJQfKNSfU5VpphuhjBNyxXlKsmXtGh5qe8uzyDCvKJQ1KlkneNYf5GwrVIlXs43onxTP/0zI22zOKpSA8Mn4u0xrdz/Vo2UiIMvRtt+A3OaSPn7cdkSbCylG8TqyWbbMaSIjMKv1ZFmsJeHeabIrLKoxOaqE+e3DxXyhNmMem7PeyXl3kIsOWL1UJNA8mqx60q/cjN5a18+3hM95DKcd0wFdH0ZGz91GjYlPoXZhXL4U5OHbc/Fq+GlHBYty0eB81BDHt++JBGJ9qFT4pOY+P7xyw5frBUF+LTCjIhukYhQaY3JYVzBUqx8PNL2uvb3XyJ7FddowvuqaTcMw0aHyzsVqHh7H/Y6vo4cyn/0DtZr3VBzMlJub6+n1RYsx1uOMmjub+xa1rr6bLzaVXudCZhdrvXJKvHxyzfrr3vDvB04+vfRTRYXmgyn5XtPzi936s01LSfteauaN3TW6tYbI9X7abcm5Vs+G78O6o9f/vWSfCB/q3E9Eer43I1Zj8/F00/LkQ36I2HdAmQNj3XUq+CoUUhf+B42p7WRj7KxYs0+vad/eU7lcddPcGc7p+btpl38e7+9Lb2KbP0jmhAePwh3yXv1f8nBlvPe6u1FfPVlsfxcnRHXKUyluWEtwIG/OP9mvRH/3D8afjNH+SZi5LYDjT/jW8dRJd+hqFEZv4Hs0m+B80vxpEwLnb4T5y+exv9oP/m1ooKpCy+HrjJvPVH7Wb2LiMv6t55Sl58iusi8Wn6XW8JEMfWhNk3Snc6Ulo+ErJhNjmu3XiJu2WFHT8DVeVH0eheZz0uvoGaDmDdIng1dXtssIubme3ntq0N7r5bT0ENp/BucFLlTw/X3tvVcLKKmYJJI03umTW/Ov4O7nqhrWevqssT8Ltrzx4tZZVq/rqG+uN7ke0yc6Pr+Tr0yS8kske7u85nTRUZBlZ7HrZqtYqVL3VK3hIUiq0a+ftkskeZy3P65nTn9nl3miyy33dXm5GnKXh5NesFu630vkZAc4/r69l7d5XqYzer9OfW2m9xM6ZvFZ9rzHOXr7pYs0n8Xq+pdw02ra/8j61DZ3rGOsjalLhCLvJWfQdp7eOLHc6K9IAMfTgsLavJHIUFLysvEotBM5FRbIIMaZFCTiZ9g/6fFuAQLqnNn4rE3L8CUus6WR9RBNnqkmY/i2HMbke3xzFuJ0s9lP8rLfGh9wRYs3ytP5+aZkA3W9tr656po/hyTz5I9lNseRKqszcBebNlTbOvZnd+GbRuq5Z3hGPGLfjBbdyFr0lK8KXtCDb9xLcq23aN+h+cx8UCV9syrw5wOGfjke5RANlaZIN8jczc+frZJvajYj7zjF+WdL5D3p9ewpsJed4R8bjkKl/aBuWINVqz7RL6CO9o84yQ8qs1bOt5TwFK6CDO0OpY3HxP/fBCVkbPxhvgE8mQgn9MF8mQg872O2ZFNZ+osuHDunO29fiZ7cm4n8kwI6xiL3trdL06i4LRrb9aFtRjFn2rfMxKxt3ZwzA9aT6zDclnvZVDC0O2lkPFSfvZH8dOLpa7fNzgGMT9qLe+Uo+jUGacefBM1RSg65n0+tKG37fy+tt+sfs1LmJxzxpZRcdQZR9vdjjXv/gwjGpWxbGvvHEJufStE/mwt3ijXylCg7s0pmBTXTj/+ffPfIGq+FxNHxcshUDDC+o/AcNk91YZGgx4ejqFt5dcKS0Li8Jv0rJoQnMWJTw7rlaZ+/VgkhYfI4UEo2sYv1hs9KrYj+8BZPa8LFSxMDydhhPMQyUlwVBzu1IJMxVxM7PkIRr7xFl79xzBklFyShZyFTH9fcHEZ0lsbho7JDyJjwI2ysb6DTblas0vBuKd+ZSsHtEFk8mI8M1V77lb8bfdJeUK7OkwPj8Ef9YYTjR8NvUOGLcltvVDqD+HQu1rQlyfN3/XBzfqwMRI9M1S98DSEtR7E3uxT8o4Z5jnTsEg11uCoDMx89k6ZKoP3qj3Ia0aca1HWszhbrH2ItohoZ69v1Ti5e5sMR1Lyr/DHoVF6cG347E2FI7yDdhLwsiDmmDaQ7S1JnoBUamOX8P8P59veN208Ft1lf99JmLunTraJj7EruYN2VHHfdt2WsY/x3yDauj0i2jT9+M6Vp6kSnDqqNSBPqnD6/NfqfmOXnw+VP2T0NDy/+QlM086gFW8ie2wq5swZi5EdY67pRuCrp+kqfalalZeB5ZcDMUgWhfV8pezrSV1uQ0JX53KwN0zZtAr+jZPylNZspwtwRH9RVyEdwqHNwjbitl4oXl5LV3EWpy+4C6L24BSLQX2iHT08rbfYOrw9tH5bs3uLuhC0uekm22/54ZeQHTo36lFbUoQj2t0ucgR0c8O7euT2+11C9TlbvW/ca3T67FesOfOh1Sj78kq2Jbpvu27L2Mf4bxC9Yu1w0y22htzqlYP4Rh/KOd9kI0jpqB9vzH4mb9qAmpI9rjsWYp52lq3ehS2zZmH9uhSkmWUv5RpuBL56mgzps9/AVn0oPwgjBsfov0twuwhbT+GLj5B30nn6ohrVZ2z9z1bxndDVQ/+mxbW5Gbfonz8BKfk1Tcpfu7kbekvB7dE+Rksvwt7DpU7lWI+L1WdlSJGaG+h0zkP1N/DCllOudcP6T+T8JV/vIZse7Ad9dHs5N8ejt0tXrRXCb9JGAfLTflaMIsc5wumzXyl7z9zlZOksHFGdVXv6qgqV/t6H8OK6CaIWxDh6Upf+tAxTjmmrsRdQvn24baU+8iksdTsnap8PvQMJPTydty+gLOs226pi4hwsrR6IB2bPxsOp03D/XdoKa4Bodx9SHrPNPVY8+ywW6kP5/4uU7raGFNz9QfxqqNbas7HipU3I1Xvf2m88Cc8vsM2d3ndnV9ms3bGf5L7AiQ8O4rD2VOth5C5cgTf141eBY0oiD1syN9s+n/Yef7Ct1GsrvdpXchE8AINSbpV35PeeNR+T9bojn1q2FHOf2y1T5Sjlt4OR0NwYKgX3mIkX9Tm+ozg8chzuctpFYi3biDVT7scv9HlMNd9sO+SdI9jXoPK8/SQWjq53DkOydnf7JryQa9t32vDZm7Kf8Mxof1OY+zGDfT7Ua3BvhR/2+anL++p7Y/WdE7aLENy1OH9zHfVEQxB+xxQ895AMahVrsDT+RlmQYYga9r5sUr0Q9+wopLib77QvnjTdMtJIG0Td8wSe0GpU3mxMjG6lN8qgkNtsDcH8IMbd3dlLL9ZfRKPfg/fZGoauF/r8dqg+lNcF34mRL6boizkN887231gGmrnPIPP2G215XdyC2Nti9WBRv+YX6Bui/X59kbQ/FgnNiiDNcStuSx8rRwdOn097jwUylJjTMW5sfw/BKhzdxzxvW+xw1J0ghERPxsvaYmLCNGQ+NsDjVI970fjJpOVYqdVHbXN9xh3opX1n/XVH4zeL9DMUhm5fjg3qN7OWrcNCx5VNti1AjbaNeVgUCu4+FuP17VLbkZscjVD9PVYiv3W06/f1sDjVwD4f2gXdB3Tz8HvZNJwoGt43qO1w2wJdwnj88Z7OARGArqMgKoXdg9+u+Du2LU6wrdpqzGlI+fvbyJvQ220jsM+HmgfFyQG9F2GjMO39HY1fWwscT6xE5o4XMTs6MK5yauhtSuZ7MT65o1NDk8PU29/Efx99HRvnxDU0sITpyNi6EwUzbvcSaOSJ6Jdr8d5S++9n++3ezByB4d9t4s4N+fniFsjyyMSKyQ3N35S6AItyFiLT2+quKt8P9CkalSaDXMLibdj1t8lICfsOTUmrjxs/x7G/zcDLejC10153IzKPZiFHLchoPfS81yZj6u5JyKy6gKLX5eNRf0Jmoz2o9nnrClR+Xt4QYGVP+sE//x0f2MtE1fktzw1wnRNVvcyGfb9N2edD+yGh9+VOG/JEMeMD5K93/s1kh2VOFrLWz0RGVIBc+Sc88HKIfBDL63pi33/pZg+qmyuWGvZW9xJ9sorV/lGnPZyOvbpXcsXS9cVb+7q+eqJEfk+bYx6PaU+XwjRtJMY3XQizz1s7bdkzxY/AeH3yUpt/jbENq4M6YoC+h7MX+vy8vxpl2f8dhBSMSx/YMJIg71QwdeHlEPkgltf1oFaUbbtHJGg9xdR1Iqfaw6VCqjfq3Ju0lGSJrDlxja/+SZguMrYWOq6ms1/NxV6oK2/tK0j7j8zgQpu89nCIfBDLK9DVo/ZAGu796UbsTV2HDzJT1cUM9H3w1r5YCkR+4RQ+yt6KPHmvYeeD+3/chL5f7IkGCJYXUcthT5SIqIUwiBIRGcAgSkRkAIMoEZEBDKJERAa4XZ3XVqKIiKgxdyv03OIUIFheRC2HW5yIiFoIgygRkQEMokREBjCIEhEZwCBKRGQAgygRkQEMokREBjCIEhEZwCBKRGQAgygRkQEBFERL8fFLHRE6fScqVIqdtWwj1jweqV+6pd8Sn8TE9fkosKoMGmsBDi5LRKI9T9AwJC7ZguzSb1UGoitRgePvT8T0waGOeheathCLj51Xxz2pxonlXR3PabhFInLlcfCPgfieAAmissIuS8WM975Sj51YD+LdGRMwI3guskouQYhalL1wGjXp4/BYzhmV6QLK3n4EAzcMQJ/9ZagTApbSUbh3XypGL97rEpSJvJP1Ket+9L6/BqWv/FuvT8JyFHt6rsbUvjMx2+uJuRIlRedgXlFoe57jVo7yR3ugyR9IJl8gC8gtL4d8iqV0g1ieOkCk7MsTq4eaXP7cq6UwQyQjRWQUfq1SNOdF0etdGvJacsSqxFZCVlwhK66D9tyhphkis8rDn6b1If5SXtcFWZ/c1UWP6c6qMsU0U2+RsK1SJZAv8Na+/Lsnas3F6gGyh5m6BW/d7m6gU4/akiLsNHVBvPkHKk3TGrd0jgFe24Et5+WYvqYIRXu6I/bWDo3O9MHmePTDVmQfOKtSiJoheCjSc+pQN28IzCrJWf1nxShynkpyYq0owGf1PRDXKUylkK/z7yAa3AcDd3yInLuiPHyRi/jqy2LUR7j/91Ej6r9AQcW3quI6B1lnhSg6dYZzUXRVCGsIzL8ciEFuK6z9pH8DOmzsj0g1HxqaNh+z95WzDvooP58TjUB8fFt1351KlH5eqe57YtEr7hH1iKhlaPPuMzFhTzrG3d3Zw9ymOukP6oIfjvsn5JBfjiHrcG7mBVQ/MAajD1SpfORL/DyIEvkD2cM89hRmjgnHne8/jT9Gexr1hKP7+JMQu2YhI8qex4Swnqn4edohZD/7DvI8TAPQtRPgQTQC0d0i1H1PQhDWMRa91SOiq0sLoFOR0fcDfLLkNWy8K+o7rLCrenzkJI7VMIr6mgAPorYFJFOl+3/Wv1ItOGkLSH1Nnrad9HRZcCJqngso//BRFUDfRt6E3jIcUqAJ8CAqh0KylzlELSA1UHNPQ7ohrq38CdrGInbwCZcFJK6U0ndmPYzcP3RD1KBylKx/r3kB1JqLNUmhbi4Ysc3tmx5Owoh2nIHzOWqrkwsvh3yTx715H4nNaW2EKXWdyKnW9nvWirK9Y0Vqo714taJ00wBhMqWLjIIqPcVSulYseEg+z9uePh/id+UV0ErEwRejZZn0En2yihvtPfauTtTkjxKDnOqhnlYwSYxpNUHMKrmk0uj75q19Bf5pLfjHSJ4+D0vbz0RSeAiCgsIQlWLFN2tX4s9JHVSmNoi6ex62LvwSx+Jv1LeVhEQvwOqea7Fh0iC3e/2IPLEen4unny6V947i8MgYhDou3VS3yKewVNufrHqejsfayOn2ldi0uyM6PR+l8ndC51W9MfCTlzHb44IUXUv8k8kBguVF1HK8tS9OsBARGcAgSkRkAIMoEZEBDKJERAYwiBIRGcAgSkRkAIMoEZEBDKJERAYwiBIRGcAgSkRkgNvLPrVLnIiIqDF3l37y2vkAwfIiajm8dp6IqIUwiBIRGcAgSkRkAIMoEZEBDKJERAYwiBIRGcAgSkRkAIMoEZEBDKJERAYwiBIRGeDnQbQetcdewyujwvTLsoKCeiP+uX8gr0b7G94NrGUbsebxSJVH3hKfxMT1+ShwzmYtwMFliUi05wkahsQlW5Bd+q3KQHSFmtYpWe8m55fLWutNNU4s79pQVx23SESuPH6Z59K14NdB1Fr6Aib33YoP7v8Yp4WAqP4T5pz9DRLvW4TsWhUhrQfx7owJmBE8F1kllyBELcpeOI2a9HF4LOeMLQ8uoOztRzBwwwD02V+GOvlaltJRuHdfKkYv3osKlYuo2WS92zwmEWODFiNLq5uiHMfHf4LDdzyOyce/UZncqURJ0TmYVxTq9VC7Xtt2K0f5oz1gUrnIh8gCcsvLIR9xUuRODRemabmiXKVoLIUZIhn9RcK2SqfHKSKj8Gv9sc15UfR6l4bnWnLEqsRWQlZcISuug/bcoaYZIrPKolJ8l++X1/WkTpzfPlSYXOqO+zrbSFWmmGbq7ai/5Bu8tS8/7ol2wZBXz6Nu3hCYVYorOdwvKcJOUxfEm3+g0jStcUvnGOC1HdhyXvZYa4pQtKc7Ym/t0OhMH2yORz9sRfaBsyqFqDlO4eNtB4En7sKIds5N7PJ11lpRgM/qeyCuU5hKIV8XUAtL1rJ1+NOcN7Az/SksSuogUy7iqy+LUR/h/t9Hjaj/AgUV36qK6xxknRWi6NQZzkVR81mL8a9DlxDR7T9w7v2JmD44VJ/XDE1biMXHzqtM7thP+jegw8b+iFTzoaFp8zF73+XmUulaCYwgas3FmqRQhEQ/gqm7f4GU39yBOP2bVaL080o9i2cWveIeUY+IDNNHNhZcenUsknY+gF/vrpNjwTqcm3EKH/WbgdkeFyvVSX9QF/xw3D8hh/y25828gOoHxmD0gSqVj3xJYATR4KFIz9Eqai3K1p1Bxc+S0T/7FBqv0RN9f4Ii6nE25klsmHcX4vVWZkJY3CSkP7YBL3pcrAxH9/EnIXbNQkaUfWQkn9czFT9PO4TsZ99BHiu1zwmo4TzQBpHJi/HM1H/j8Kpc/D9rFKK7RahjnoQgrGMseqtHRFeLqW8MYhu1sAi9PtZ/VoyiKwqGtufhyEkca7J9j669AAuiTvQKF6IvIJkq3f+z/pVqwUlbQOpr8jTE6umy4ETkVbthGDY6XD2gQOe/QVTNg4ZO3+l2aGR6OAkj2oXqvcwhagGpgZp7GtINcW3lT9A2FrGDT7gsIHGllL6bWxB7W2zD7g8H2x7QiMR4NcRvwmOdts3t2+p04PZ7/Jba6uTCyyEfUSdq8keJQaZ0kVFQpdJqRdm2exqnWT4Sm9PaCFPqOpFTre3Zk3n2jhWpjfbi1YrSTQOEyel5ltK1YsFD8nne9vT5EN8vr+tMzQbxyh2tRMTcfHFaT7DVuzGtJohZJZf0FFfu6rRMK5h0medRS/PWvvw4iGpkxfxwlnhZBjvt8wJmEfHESpF51F4BNbISHs0UKyabVR55M6eJlPX54qjzPujqXWLb4gSRYM+DXiJuTpbI8pOK6x/ldZ2RdeqDOXHCrOqUKXWBWOQIjpIlR6weapL1cabTpvzm1Gn6vnlrX/yTyQGC5UXUcry1L06wEBEZwCBKRGQAgygRkQEMokREBjCIEhEZwCBKRGQAgygRkQEMokREBjCIEhEZwCBKRGSA28s+tUuciIioMXeXfvLa+QDB8iJqObx2noiohTCIEhEZwCBKRGQAgygRkQEMokREBjCIEhEZwCBKRGQAgygRkQEMokREBjCIEhEZ4OdBtBonlnfVL8lqfItE5MrjqFe5rGUbsebxyIbjiU9i4vp8FFhVBo21AAeXJSLR8RrDkLhkC7JLv1UZiDwpxccvdUTo9J2oUCmNXe64swso3z8F0weHqnoYiZunvI4XPix31GfyLX4eRCtRUnQO5hWFqBNCv7bVditH+aM9YNKyWA/i3RkTMCN4LrJKLsljtSh74TRq0sfhsZwz+qtoFbfs7UcwcMMA9Nlfpr+WpXQU7t2XitGL9zaj4tP1qwLHl6VixntfqcdNXe54Y9bS+Xjmvw7j4Og9OGqRddmyA3+LWII5CUuw4rzzWZ98hgw6bnk55DuqMsU0U2+RsK1SJbiyFGaIZKSIjMKvVYrmvCh6vYswTcsV5dpDS45YldhKyGAsZAB10J471DRDZFZZVIrv8ovyCjCW0g1ieeoAkbIvT6weamqoT8rljruy1Uskrxa7nKucrJ8rf9Leaz2nluWtffl1T9RaUYDP6nsgrlOYSmmqHrUlRdhp6oJ48w9UmqY1bukcA7y2A1u0s3tNEYr2dEfsrR1svVcl2ByPftiK7ANnVQqRYs3F6gFydJO6BW/d7magfbnjblWi9PNKmPrGINa5ZQbHoPOd9dibc5ijIh/kx0HUHiBvQIeN/RGp5jJD0+Zj9j77/NFFfPVlMeoj3P/7qBH1X6Cg4lsVjJ2DrLNCFJ06w/koaiy4Dwbu+BA5d0W5b0SXO+6OtRjFn15UD1zVf1aMIo7ofY4fB1EVIAd1wQ/H/RNymCT723U4N/MCqh8Yg9EHqmQe25ndO4sejI+oR0TNE4H4+LbqvjuXO+6GNiI6xtO1v/HjIBqO7uNPQuyahYwoey/ShLCeqfh52iFkP/sO8qyehvlERFeHHwdRTyIQ3S0COHISx2ra2u57FYKwjrHorR4RXTNtYxEb5zwrT/4gAIOos1B9AclU6f6f9a9UC07aAlJfk6f9oD1dFpyIWkRwDGJ+1Fo9cOWy4EQ+wX+LxJqLNUmhbjYwqxXOh5Mwol2o3sscohaQGqj51CHdENdW/gRaD2DwCZcFpMuv/hNdTbZRlMsCkrUY/zp0CRHdImUO8jlqq5MLL4d8RJ2oyR8lBpnSRUZBVUNawSQxptUEMavkki3J8pHYnNZGmFLXiZxqbfNdrSjbO1akNtpfWitKNw0QJqfXspSuFQseks+77N4+3+D75RXALDne94Fe7rgTS8kskW7qLuKWHRan9YSjYv9LcbJu+sd+5UDlrX358eDAhLDbV2LT7o7o9HyUukSuEzqv6o2Bn7yM2dFqsSn4x0iePg9L289EUniIzBOGqBQrvlm7En9O6mDLgzaIunseti78Esfib9RfKyR6AVb3XIsNkwbBrHIRXVVqNBUU+RSWqquRgqPHY9p7SRj+1364WavTIb0wuHAsnt79e4xrx7G8L+KfTA4QLC+iluOtffHURkRkAIMoEZEBDKJERAYwiBIRGcAgSkRkAIMoEZEBDKJERAYwiBIRGcAgSkRkgNsrlrTd+URE1Ji7q5Z42WeAYHkRtRxe9klE1EIYRImIDGAQJSIygEGUiMgABlEiIgMYRImIDGAQJSIygEGUiMgABlEiIgMYRImIDPDfIHp+KZ6M1P5Msoeb05+htZZtxJrHIxuOJT6JievzUWA7bGMtwMFliUh0vMYwJC7ZguzSb1UGIjdqN+Ll2P9E4vYzKsGuGieWd22oc45bJCJXHke9yuXqAsr3T8H0waGO/DdPeR0vfFju5Tl0LflvEG2XgVfKhX49a8OtDjX5o5CA4UjZMh0Z2t/pth7EuzMmYEbwXGSVXJJ5alH2wmnUpI/DYzn2in8BZW8/goEbBqDP/jLUydeylI7CvftSMXrxXlSoXESN1L6P1TOfwn+f+D8qwVklSorOwbyiUK9PDXW0HOWP9oBJ5WrKWjofz/zXYRwcvQdHLTK/ZQf+FrEEcxKWYIXqFJCPkQXrlpdDvqtmg3jljlYiYm6+OK2SLIUZIhkpIqPwa5WiOS+KXu8iTNNyRbn20JIjViW2ErLCC1nhHbTnDjXNEJlVFpXiu/yyvPxWrSjb94QYF/eK+HD/eFm/+ouEbZXqmFKVKaaZerume2Wrl0heLXY5VzlZP1f+pP0VvhZdTd7aVwDNiZbi48XT8WTxFMz+3QBE6Gn1qC0pwk5TF8Sbf6Cn2LTGLZ1jgNd2YIt2dq8pQtGe7oi9tUOjHkKwOR79sBXZB86qFCLZWzw+HcPub4O+2x/HT28MUamNWSsK8Fl9D8R1ClMpzVGJ0s8rYeobg1jnlhkcg8531mNvzmGOinxQwARRa+kqLJvVGn0Wjcc4bRivu4ivvixGfYT7fx81ov4LFFR8qyq8c5B1VoiiU2c4H0UOwZGT8NYXc5AR5anO2E/eN6DDxv6IVPOhoWnzMXufl7lNazGKP72oHriq/6wYRRzR+5wACaLVOLn1L1gT8QuMT+7o1Ju0ndm9s+gV/oh6RHRZ4bGIb+ut6aiT96Au+OG4f6Jcnwutw7mZF1D9wBiMPlCl8jWhjYiO8XTtbwIjiFoPYs+mUkRMuh8pjl4o0bUSju7jT0LsmuXUWzUhrGcqfp52CNnPvoM89igDRkBEHOuJd5C16z6kPNBXzYXaRSC6W+MUVyEI6xiL3uoRUctR9fHISRyrcRNF28YiNs7Tuj35qgAIonIov3sbtpu7Nlk80tgWkEyV7v9Z/0q14KQtIPU1edoP2tNlwYmoRQTHIOZHrdUDVy4LTuQT/L9I5FB+b/YpmB5OwgiXobwcQsle5hC1gNRAzVkN6YY4bW5L6wEMPuGygPTdVljpumfNxZqkUIRO39lkNV2tvrutqxpbT9VlAclajH8duoSIbpFNRlrkE9RWJxdeDvkWfT+eyWWPp4PlI7E5rY0wpa4TOdXa5rtaUbZ3rEhttIevVpRuGiBMpnSRUVClp1hK14oFD8nn2feS+ji/Ka8AY9uH3HSfaJ2oyR8lBjnVJz2tYJIY02qCmFVySaW5spTMEumm7iJu2WHbXmfLUbH/pThZN/1jv3Kg8ta+An9wEPxjJE+fh6XtZyIpPARBQWGISrHim7Ur8eekDipTG0TdPQ9bF36JY/E36ttRQqIXYHXPtdgwaRDMKhdR88gR0O0rsWl3R3R6PkqvT0FBndB5VW8M/ORlzI5W006qx+p8iXJw9HhMey8Jw//aDzdrzwvphcGFY/H07t87bd0jX8I/mRwgWF5ELcdb++KpjYjIAAZRIiIDGESJiAxgECUiMoBBlIjIAAZRIiIDGESJiAxgECUiMoBBlIjIAAZRIiID3F72qV3iREREjbm79NPjtfNERHR5HM4TERnAIEpEZACDKBGRAQyiRETfGfC/AJ95GAep7y8AAAAASUVORK5CYII=" width="260" height="143"></span></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">Plot a graph on the axes below and from it determine the average rate of formation of oxygen gas in cm<sup>3</sup> O<sub>2</sub> (g) s<sup>−1</sup>.</span></span></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><img src="data:image/png;base64,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" width="371" height="601"></span></span></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">Average rate of reaction:</span></span></span></span></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><span style="background-color: #ffffff;">Additional experiments were carried out at an elevated temperature. On the axes below, sketch Maxwell–Boltzmann energy distribution curves at two temperatures T<sub>1</sub> and T<sub>2</sub>, where T<sub>2</sub> > T<sub>1</sub>.</span></p>
<p><span style="background-color: #ffffff;"><img src="data:image/png;base64,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" width="393" height="257"></span></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><span style="background-color: #ffffff;">Apart from a greater frequency of collisions, explain, by annotating your graphs in (b)(ii), why an increased temperature causes the rate of reaction to increase.</span></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><span style="background-color: #ffffff;">MnO<sub>2</sub> is another possible catalyst for the reaction. State the IUPAC name for MnO<sub>2</sub>.</span></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><span style="background-color: #ffffff;">Comment on why peracetic acid, CH<sub>3</sub>COOOH, is always sold in solution with ethanoic acid and hydrogen peroxide.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;">H<sub>2</sub>O<sub>2</sub> (aq) + CH<sub>3</sub>COOH (aq) <span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext=" \rightleftharpoons ">
<mo stretchy="false">⇌</mo>
</math></span> CH<sub>3</sub>COOOH (aq) + H<sub>2</sub>O (l)</span></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><span style="background-color: #ffffff;">Sodium percarbonate, 2Na<sub>2</sub>CO<sub>3</sub>•3H<sub>2</sub>O<sub>2</sub>, is an adduct of sodium carbonate and hydrogen peroxide and is used as a cleaning agent.</span></p>
<p style="text-align: center;"><span style="background-color: #ffffff;"><em>M</em><sub>r</sub> (2Na<sub>2</sub>CO<sub>3</sub>•3H<sub>2</sub>O<sub>2</sub>) = 314.04</span></p>
<p><span style="background-color: #ffffff;">Calculate the percentage by mass of hydrogen peroxide in sodium percarbonate, giving your answer to two decimal places.</span></p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p>There are many oxides of silver with the formula Ag<sub>x</sub>O<sub>y</sub>. All of them decompose into their elements when heated strongly.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>After heating 3.760 g of a silver oxide 3.275 g of silver remained. Determine the empirical formula of Ag<sub>x</sub>O<sub>y</sub>.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why the final mass of solid obtained by heating 3.760 g of Ag<sub>x</sub>O<sub>y</sub> may be greater than 3.275 g giving one design improvement for your proposed suggestion. Ignore any possible errors in the weighing procedure.</p>
<div class="marks">[2]</div>
<div class="question_part_label">a.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Naturally occurring silver is composed of two stable isotopes, <sup>107</sup>Ag and <sup>109</sup>Ag.</p>
<p>The relative atomic mass of silver is 107.87. Show that isotope <sup>107</sup>Ag is more abundant.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Some oxides of period 3, such as Na<sub>2</sub>O and P<sub>4</sub>O<sub>10</sub>, react with water. A spatula measure of each oxide was added to a separate 100 cm<sup>3</sup> flask containing distilled water and a few drops of bromothymol blue indicator.</p>
<p>The indicator is listed in section 22 of the data booklet.</p>
<p>Deduce the colour of the resulting solution and the chemical formula of the product formed after reaction with water for each oxide.</p>
<p><img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAmYAAACJCAYAAACGofT0AAAgAElEQVR4Ae3dDXRT14En8L9kQtiEr1KyQXIyMLYDTA8kmcols23Oxh/FnpTQsHYh2QRs1pwtnAXKhvVH7CRNmlAoyMc5CdCBZq0ayDATgjRkXM4WExslTZqFSp2kMA12gYUEJHJIHbCdlC/r7blPevKz9PThL1nS++scjqT37rsfv/uuuH733fsMkiRJ4IsCFKAABShAAQpQYNQFjKOeA2aAAhSgAAUoQAEKUEAWGKM4GAwG5SPfKUABClCAAhSgAAUSIBA6cBnsmIkdonMWGiABeWISSSbA8yDJKoTZoUAcAmy3cSAxCAWSTEDrohiHMpOskpgdClCAAhSgAAX0K8COmX7rniWnAAUoQAEKUCDJBNgxS7IKYXYoQAEKUIACFNCvADtm+q17lpwCFKAABShAgSQTYMcsySqE2aEABShAAQpQQL8Cqd0xu+lGfY5Bnk0qZjaE/1sFh/cmgE/hKM+BwZCDcsenw1zbN+F1rPKnXe6Ad5hjZ3QUoAAFKEABCuhHILU7ZvqpJ5aUAhSgAAUoQAEdCKRJxywPVle3vAabWIet798OlJiCS7XpoDpZRApQgAIUoAAFUlkgTTpmg6yCng4cri+HOTgMOhfl9Q64vdcDEfrQ09EGW02xapi0GDW2NnT0+CIn6ruAtjr/MebyXTgZLWzkWLiHAhSgAAUoQAGdCei3Y+Y7B8e6UhRV7VbdF3YCu6tKsfDZX+GC6Hf1uLBj5VKs2NKiOi1asGXFUqzc4UKPamvwo+iUPVuBwk0tQF4Dmrcvw+zx+mUOuvADBShAAQpQgAIxBdKkx+BEVe4E1VUtMREg+o3+vlOt2Gk7IXeeXN29kKRrOG9fDRMA7ztncNEH3Gx/FzucXsBUi9YrIkwvul0NyIMXzqp67Ou4GgL8Z5xo+jGWyp2yF9C6dzUs7JSFGPErBShAAQpQgAKRBHR7A5ZxZgUOSRXwed1objmAc5ePYuuK7f6rZ1914spXPhinZeEhE3DauwmFsy/A+uqjyDLOQr3nGiymsQFTMesz8Nr9QxTtFp/noGLtcuQFwygB+E4BClCAAhSgAAUiC6TJFTOtm/9PYVfJ3ZFL3nMCtvK5yDDnYlFpKUpXbIFTCX3bFEy6zQhj5iPY0Lwb1XkmwLsbVYtLUVq6ALnmGcivcUS5z+wEbFsd+DfeW6aI8p0CFKAABShAgTgE0qRjFkdJ+wW5io59L2LFbjGUWY1G+0G4PNdww2VFdr9wY2GyLMPmIx5I3e1otdthf9OKMpMXzi1rsHZfB/pPAVgAq6sdrdUWwGlFXdj+fpHzCwUoQAEKUIACFOgnoNOOWQ/Ot5+RIUxZD6B40fdgufMS3rUfxukgz3VccKzxz9jM/wnaumegoKQEJSWL8ejDc4Kh+n0oq8CTlpnI+1EdKkxetDy7DQcuKDM8+4XkFwpQgAIUoAAFKBAmoNOO2UTMeuDv/Df620pxV4YBhoy7UPjOdYhRS8j3mI1BZlEZ1osNzhdQaL7VP7kgYwZKxaQBUwlWFmdBC9CYWYD/sX4B4HVg6z99qD17M6wquGF4BcRSJ07sD1sO5Q20dXQNIqkUf8JD6NIwxTZ09L/cOwiTWIcM8YkbPR1o21+PVS+74b+TM8XrIBYX90cWiPaUF3M56h1ueEf8fAZuuuuRI5ZXyqmHW3V7ceSMD3RPFzra3kD9qu0x4he/b4dQXz43MOnNjGLbyZARnIGmnajwbMexpLX6FbGOSYP9Y5G56Bk0N1UjTy6NCXnVu+Ha/7+xdn424G3BIVcnMH4eKpudaG1UwonAImwjWp0bUZKpTAAIJZkMy6ofw5qHCLM3Q8Pz+/AKXIe37SUsnJWPxWHLoTyOwlmLUdd2IUV+xIZDxoeuY00oV1uc7kR3Av4jG3zue+DesRKFi6vwdu/gY+GROhAQ9/+WLsQTDcdS/o/gm+5f4HuFj6Pq7b/EqLhOHGt8BlXidhz55cXpzi919JsWgyfFd6d2x2yMBZWnxEr/R1BpGR+lKu5Gya5TkCTVhACjCZbyzTgiPynAgyObl8Fiyg6Ec2FzwVR/fONnoqBCCSfSEmErUDBzYiC9MTCV7PA/bWBXiXwVTt4hOnXi3jRpHypmjouSN+4abgFfx+tYXvgCnJiDsob34OkV9daL7vZfw1omhqFbsGnpdji7krpnMowsPnx5udM/47ioEe3C41QlLCk3JztCWxtGKUaV7AIrYffc6Hu6S68HRxvKYBJLGDUcwDHdtOm/4PLFy/KFgqLGj9ErSThVaUHKNelkP91GKX+p3TEbJTQmm8wCn8PZ+HO0iCub1kZsf+o7MMlnuRHjZxZj/TOVqKj+BQ40r0XeROX01xj2zK+Bra0jjr/A4zk20qX7Hrjr8/uvued1oFweKvkJHId+gnz5qRRLYAtbM0+pg8DQh2pII7/GphquFcOJs2Eu3ek/oGUFZmVEWeNPDB/aagLpivUAzegfX7zpKuFC3pXyGVbB4e0bCwoOEZU74IXI8/3IrfLPkz5dlYtbDPmod1+G17HKP3Qjh1PiHmgd7IXb7egbBjKX4+VjXl5tUDhT6d1owrzHH8V8kWdvJy5/6ZNvIYnahgJD5OVmcX6LfxGe5tJv+F88FeYQOq70nbN+pgjD9cGhV/V5fh1e9XlnMMBc/jIOy7dW+H8jbsmt8t/nfLoKubcYkFOvDOOrKkVuQ3+F0t3ijmgvWlb8DTLU7Sme8intMCfkd+aPv0F9jjDJR32bW/VknGLUOE6iB13oOPwy/Hbit2GP6kk5A7FQlSf4UR23v27M5fVwuHXYNiXVCxB/iPCld4GUPg9uuCRrNiQgT7K6uuOoyl6p++Mmqcwkjgn9Z5LyrEclfyw3JI99pT9MmV3yyDEP5VgRQbfksuZJQLZUZv/En1ePXSoLzYepVmq90qtRlivSx40Vkik0vPx9gWR1fSFJ0ieSvSw7pGyq9PrF+oXksi4ICRswyWuQXN1KHuJJV0SspK1KL1i+lZLdcyOY+g2XVcoW+ZZtlePU9SHq84vhqQNNr8VSY/tfgvlJxQ8p3W5jgQfbdf/zRur1SEcbyvxtINsqucQpFTzHVOeP0oa6j0uNZXNin+O9ZyV7RYRw4vxR0tI6x0VZwvLbK3W7GqQ8rXPPtFqyn/+y79xWhcm2uqS+VhJA0iofAi7xlk8rDmH056OB30+VXTA/RdL66ifCfm9M1a3SFTlrSrtVtXdNC63f0mvSefvqsLjl32TZ51qg8On3ptVulUsGwT4rP1AgpQUuncNxeWrtLGSZ4xhC9nVg37pa7BYPeChrwseBp0B4Wl8IPOHhRexwiyEDjddQjtWIrv8mccXvKLolCb0ddfi74NW9vlC+jv1Yt8IGrxiybTwuh5V6z6O1tgjAQVRV/hLunkyU7DoJj32l/8AyOzzqIf2+6ICbp3Fkx0EAFlS3XvIPF3UfhVWeANO3/Et86Q5lmFjcevAhXOImTQDZVhduRLpdYVB1UIRq+8d+2/N2VIgJP/g93jlxSa3Bz0kpsBOl5lsCV7rEpC0zHlgvHqs3BxVbFuNv+43lhbah633LJJkq0PjxFfkc7/W0oDZwjlfKj9rzocu5E2vEJC8Uobb1vDxU2Ot5Dw3yrRCDgBHnaZ0VTnElv7bFf3uF0la927Hm1f+L20t29C3ZlG2F60aE4UlTCXZJn8BeJhZ3ykaZ/RNI0g6UmG7GWT51/kONMoI7g7+Hym8AWtCwZxw2yG5fwGVdIIf12n+PP4VeSAzGEucH3xkc2imuloslp77w14vSNr3/jjMX9bW6ATtmcZ43DJZqAp243B3718J36rd4o8ULYDE2PPNY4LmmY2EqWI3nxHp0OIgdR04HZgX2NxjKsf1j0vr2IJZ9/16IOyeN48fjtrAgV3HqvV9Dfopr0VN4ZvkcOSyMmSh4ugbVorPh/Fccaf8q7MiIG4xTkfWQuAfPjS2F+Siv3wtHy3ncU+9Gr+TBoYrZMGIE0o2Yodg7BlUHRY9hxaLZftvMb2GBmPDDV+oKiLUoW+14pWR6yCz5kDbkO4v33njPf1/Whiosn+2/T9hoKsTTzy3336e2412037yOi2dP+e/JLFuJtQWZcrxG03/CivKFffcRD0Tssz/iHfl35vtYuzbff3uFaKsbD8mdEM/mAih3LQ8k2n5h4y6f+qgQo+AuC5aVL/D/Ho7/BvIXzJL3mJY9iR/IbpNxX35eyLqfwYMH/sE4GxWHPJB6X0P++TY4HK+hduka2MRPM7px6Uro4w8HnkQqHdHv74tUyjjzSgFNgTumY674f/b0JXTG0zHr7vTf05E9D/dlqa+wjcOkOybISZw+fg6XcF9Ycr4hHOuP7AucO/5pWLzyBlMOZkyLNOtXhLiJ7k7/FZ7s+fchS/0n1m2TcIfck/sUx899AVjkS0La6ai3Gqdj0YZGNE19Dsu3tGB31ZOQnzAmwuTVwr7zaZTMNA4gXXXk0T7fxKVzp1RrCEYL23/foOpg2mRMCHp9DdPniieERKiH/snx26gLiJv/t6HEFMd/XaFtyPclOk+L/+nzMP++u1SdOCNumzTF/8fP6VM4d+kqpgfalmnaZNweLLMqXHBbhA/BK/f+/Tc9Z/B+hKDDtjnu8t2E+JNTfoUaKdsxAXdMUv8e+nfcdsckjT8Sgwdpfwix0A7UhZO2p1AgjwCEhtDOS2iodPoe/HlKp0KxLDoWGDMd3ywVPzvtOHjkj+E373e1oW5FPfYHbuw3Tpji/6vv9DF8dEb9V9lVXLnULUNmz52OOzRIh3KsRnT9NwUeC9Z/o/rbGEyY4s/V6cMf4Yx65PCrK7gkXyi7G3Onf019UMzPRtM8lG8Wf8VfQXvrAdjt/+ifyerchNK1+9HhG5l0Y2YsQoARrYMIaXJzigiEtiHj7ZiSLf5Iacfhj86rJnv48NWVTshNJjsH0+8YF2xb3g/P4mKwbanCDZBgjDkL35GPie9K/gCj9wePu3yqTm2o0aASHvpBfbdHFKG68U0ccHnQe8MFq04vZrNjNvRzijEklcAUzFvyZOD+sBVY/fL7wYUnfd738fLaddhkq8Liwmexr+MqjDnfxmNF4sf6TTz70zdwUn6+qVgHbTte2uIGsACr8rM1p6HHf6wRt0+e4h8COdyGD+SnQYg0bNgqz6waDOA45Dz49xB3k6HlZfy06YS/E+q7gLafbcYW+cLA95E/K3wQNFJqvgsOrJBnqhWjrq0bOQWPoqTkB/ivjz6kGr4ZYrq3T8Y0+QLe+zj4gX8tOZ/3CLZu/ddI2Yq6Pf46iBoNd+pBwDgDDz72oH8m47NWNJ30LzTt87biZy81wSvu/1r1nzFrjPocfwNNTuU8/QCNu5r9Q5xBr/+AydMmi0v0OHzwd7ggOnGiDW7d2Xe1WYS98xt4SP6deQ97mn4T+E0SV4lW+J8uMxwLPsddvmDmh/lDnBZhqfrQc/4UjovtpnvwQPH38ajl6/js3V/hYN+jeMKOSusN6jkOWrMD1PtT83Ov1N1+RHrTWi01xDVLT1XK4MyVkJlAqiARPw7l2IiRJmZH6p8H1yRP6wvaM6DkGUZzpLLG44HZllFmSyGOWZmRZlr1O1aSes/bpYqwmZ8WKS9PzJhUzWJSzpvgrK9odR5lFiWUWZnieK1ZUFrxRotvjlRhPyv552VGC6dOV2OWluZsN5P07bxv+2dkBWe8/kVqb1ysmj0XZVZmXHUQyUBjZqwWTQpsS/12GwU5bJZjlLDR2lD3UcmaZ1KdV6rZh+qZx5rnqSpssH1GmE347TwpT27vyv8d0X5niqTa1vNy2+ptb5SKgrMgIWnOypSLrtG2xPZ4yxfJKOisntWutJH++QnOpB6wRXhbjP77aJGqWy9FqfDU3qXVbtP/itnNf8OO74kV4I+BC4in9d8YqsKJm/efQ3P7EbxpFYtPKi/x1IZf4ICrBb+sCNwsDyPGW9aFh5VvKHaiuXKe/6Z6JYp+7/Efa8x8BBuad6NafuaXuM1F3LC8E88tEPc3DfY1GZbKvWhv/efAwrkinsCTKdr3otIi/pIfyEuJr7Evn+LwsJurlXCDSFe5j61avtYnz3qrbnwdrz23MOTelXHIeXidahacuNNHazJH/HUwEAmGTVMB5Wkub1pRFvxhEMNnrWhvXgfL+MB/icbpKHnFjpbg78cclFl/jX9v3RRyw7vWU2Qa0fpaHRb0u1gtztPV2Ouyq9qqmAluhd3VhA3KBIOch/GSvGCu8DfhbvRCfYNFzFqJt3wxIxpMgHgtwuPW+n1scv0LXl/7XXky0p5Df8BgHqQXnlJqbDGIvqaSVbHYnuqrsjm138VCf7NzUXU6D1ZXc4wnBKR2UYcr92l5HgwXDuOhQJIKsN0macUwWxSIIqDVbhN7xcznhdtRH1g1WKzsG1hNWb6vR8n5MK7iLVY3vkV0ykTcTlTlTlA9fFako34IrAGG0IfhKqsjB1dVVq/gHmP18KEci5C85ddgl7sDx+RV4iOsBq3w8Z0CFKAABShAgdQVUI/Oao11qvcP7XPk+1JMFXbpvHzzyiBWUleNx4v8+/8FVvFWxtGD2/tWbNYe0xbHq+6lCR6v3CegGhtXxxn8rFo9fAjHaubNtEgqe8K/EnXk+w6GVkPK0SN7Hiip8J0CFBhOAbbb4dRkXBRIjIBWu03YFTNfhwN1VWJVcfVKyv4Vl722jXjV+Tkw3Kt4ixWSg1NuxVBmd+DhzVdx6tA/w+btW/VY6j0Le4VYXPME3jnzuWoqdaRO91BWD492rJI3cW/PC2j1XIMkXYPn9fvxyV6xEjVfFKAABShAAQqkq0CCOmY38dmJY/5VyvutpDwfG494IEkubC6YisSt4j0OMyv2QZLOYm/+52hx7Iet9ocolR/BAXx16Yp/TZtotT6U1cOjHatevXnZY8gziUVG1SvRR8sU91GAAhSgAAUokMoCqpXmRrIYV+E50x4zgcSt4u1Dz8k9WF2wXH5GYmjG4lrdeCirh0c7Nrh6swX3z5iqWp26byX60PzyOwUoQAEKUIAC6SGQoCtm42DO8j9rCxcvozu4knJ/xISt4h0cMvUvn2A/4IKntzv40OT+uUrwt+DqzR58eFY9pNq3En2Cc8TkKEABClCAAhRIkECCOmZjcOeceYFVyvtWUkbPCdjK58JgMKPYdhIYwirsA/Lq8aD9uFga/evIeqAIix614M7PPoD9YOyregNKZzCB1as373kDTu91AOqV6AcTKY+hAAUoQAEKUCAVBBLUMQOMM0uw0bpAPD8GmwrvQobBAMOEuVix+wSQtxI1D2fBaJyJJRurkCcemrF7Of5mQgYMhlthLnwBTrFwpvXHWDXQRTODV6BUy2WMy8YDD/tv9LeVzpDzkmEuxzv4a3kx0rjuMRux2h2HnOLHUSEWP3S+gELzrX6DpR/ir54QeeaLAhSgAAUoQIF0FUhYxwyYDMv61+Cyq1dcFqsp2+HaW4sC+Sb3EVjF25iFh196pm+V57szgOt3Y9GGRjSpVx9vOoD9r/8vzBedwj1vw9UVYbw1AWeCMXMRXnH+OrhCtKmsAS3ObfjR305NQOpMggIUoAAFKECB0RJI/5X/R0t20On2wF2/ELlVTsC0GvbfNaAkcyzQcwz1CxehynkbyuxHsKtkKI/yiZ45rZWIox/BvRSgwGgLsN2Odg0wfQoMXECr3bJjNnDHET7Chx73K1iYux5OrZTUnTWt/cOwTetEGYZoGQUFKDCCAmy3I4jLqCkwQgJa7TaBQ5kjVKq0i1b7YbfBh1M7N/qvoKVduVkgClCAAhSgAAV4xYznQJiAVg8+LBA3UIACSSXAdptU1cHMUCAuAa12yytmcdExEAUoQAEKUIACFBh5geAVM9Fr44sCFKAABShAAQpQIHECkiT1Syz4SCaxQ+uSWr/Q/KILAZ4HuqhmFjLNBNhu06xCWRxdCGhdFONQpi6qnoWkAAUoQAEKUCAVBNgxS4VaYh4pQAEKUIACFNCFADtmuqhmFpICFKAABShAgVQQYMcsFWqJeaQABShAAQpQQBcC7JjpoppZSApQgAIUoAAFUkGAHbNUqCXmkQIUoAAFKEABXQiwY6aLamYhKUABClCAAhRIBQF2zFKhlphHClCAAhSgAAV0IcCOmS6qmYWkAAUoQAEKUCAVBNgxS4VaYh4pQAEKUIACFNCFADtmuqhmFpICFKAABShAgVQQYMcsFWqJeaQABShAAQpQQBcC7JjpoppZSApQgAIUoAAFUkGAHbNUqCXmkQIUoAAFKEABXQiwY6aLamYhKUABClCAAhRIBYE06Jj50NVWB7PBjPz6Y+gJU1f2L4Gt42rY3sFt8KGnwwmHrQb5BgMM8j8z8mtew1tuL3yDi5RHUYACFKAABSigc4E06JgpNeiFs+pF7HBfVjaM0Pt1eNtewsJZa/FWZwF2dvdCkiRIvW7UP3AFjoUWFNYdhpe9sxHyZ7QUoAAFKECB9BVIo46ZBXl5J1FV+Uu4e0aqV+RDj3s7nijcjyz7r/DLymLMHB8gNJpgKVmP7c1VwKb1ePbAOV45S992w5JRgAIUoAAFRkQgjTpmWXii7nlUtFtRucOlMaSp9rsOr9uB+vK5gWFIAwz5NbC1dcQ4rhPH9v0jnEVPoWbRdITjGTHesgzPVd8K25qdcHaNVAdRXRZ+pgAFKEABClAgXQTC+xYpXLKM6Y/ixW0laI86pBm46rXwLWSsbkGvGIaUrsHz3G3YU7g++lBo1x9waI8bpvtnYFpEuSnILS6CyduCQ67OFNZk1ilAAQpQgAIUSLRAxO5FojMyPOmNReaiKmyrOBdlSNN/1at9WTlWzDMFrnqNhSnvMSwrOonDH12MOATpu3gWH3pNmDvLjPExM+zBh2c/jxhXzMMZgAIUoAAFKEAB3QmMSbsSG6dj0Ys/QcW31qByx3fQXJkbUsSpKNjsggdd6Gh7C29f7gXwZxzd+jy2OIGix0KC8ysFKEABClCAAhRIkECaXTHzqxkzH4kypOlDz8ldKDdPwqzCn+PoZXEf2H9E8T840FgEHG/3RLzPzDhtBu43eaOG6as3M+6fMVXjPrS+EPxEAQpQgAIUoAAF1ALpd8VMLp0ypPkISittuG+tuCoWePk6sG9dLQ4/bMf510qQqXRNu9pQc9wL3K8E1HifeC+Kl1mw5cOzuOgDJirH9gvaCdehFnhNRSjOndJvD79QgAIUoAAFKECBaAKaXYtoB6TMPmVIs70BL2x9ry/bPR60HwfmfucbMKlK7+u+jM+Doa7De2w7ys2BxWPz6+Do6AIwBfOWPIm8lpexWXM5DDGxYA9e2nINFdtWIk+75xZMhR8oQAEKUIACFKCAWkDVNVFvTo/PypDm/3P+Fl6lSPJVLzNa9rwBp/e6vNXnfR+v1D0PmxLIdwb/57m3Mbf5C0jSF3At+APWNLrQBbEcxmrsbf0BzpQ+gv9WfwgdypppPi/cjgasXmgFahuwQXM5DSUTfKcABShAAQpQgALhAmndMQOUIc05qpJPRd7//Dma5v0WheZb5XXM7nr6A9xd/nPYqy3+cMbZqDj0L6i0TAYwEfd8817cFoxhLEwFz6PV04SSKW1YOSHDvxZahgWVRyehpNmN1o3z+12NCx7KDyqBq+iwLYHBkIuatr5rlaoA8kdfhw3FBgPMNW0Q1yw1X76TsBWbYTDXoS3i2nFMT9jRUyAM3/kyrHFpntzJtjG+djScLjxnh/ecpefweo5ECzVI4nlCgZd45qPqq7JZ1+8+72E8u/wgcm1bUJI5VhcWPA90Uc0sZJoJsN2mWYWyOLoQ0Gq3aXrz//DUp79TZkfOK/rplA2PHGOhAAUoQAEKUGAwAuyYaap1ocPxM6x9KxMvNb2KeSZ9XCnTpOBGClCAAhSgAAUSJsChTC1qsXTG7EJsUSYDiDBldnh2lcCkFT7NtmldWk2zIrI4FEg7AbbbtKtSFkgHAlrtlh0zHVT8QIuodaIMNA6GpwAFEivAdptYb6ZGgeEQ0Gq3aT4rczjYGAcFKEABClCAAhRIjAA7ZolxZioUoAAFKEABClAgpgA7ZjGJGIACFKAABShAAQokRoAds8Q4MxUKUIACFKAABSgQU4Ads5hEDEABClCAAhSgAAUSI8COWWKcmQoFKEABClCAAhSIKcCOWUwiBqAABShAAQpQgAKJEWDHLDHOTIUCFKAABShAAQrEFGDHLCYRA1CAAhSgAAUoQIHECLBjlhhnpkIBClCAAhSgAAViCgQfySQeC8AXBShAAQpQgAIUoEDiBCRJ6pfYGOWb2KH1zCZlP9/1I8DzQD91zZKmjwDbbfrUJUuiHwGti2IcytRP/bOkFKAABShAAQokuQA7ZkleQcweBShAAQpQgAL6EWDHTD91zZJSgAIUoAAFKJDkAuyYJXkFMXsUoAAFKEABCuhHgB0z/dQ1S0oBClCAAhSgQJILsGOW5BXE7FGAAhSgAAUooB8Bdsz0U9csKQUoQAEKUIACSS7AjlmSVxCzRwEKUIACFKCAfgTYMdNPXbOkFKAABShAAQokuQA7ZkleQcweBShAAQpQgAL6EWDHTD91zZJSgAIUoAAFKJDkAuyYJXkFMXsUoAAFKEABCuhHgB0z/dQ1S0oBClCAAhSgQJILsGOW5BXE7FGAAhSgAAUooB+BNOiYfY62mlwYDAaNf3NRXu+A23s9zhrtQkebA7aaYlVcxaix/WoAccSZFINRgAIUoAAFKECBEIE06JgFSmSqReuVXkiS1Pev+5/w0PHnkfvEdrh7fCFFD/nqu4C2usWYtfQtdH53K7oD8fR6NuKBzjex0LwQdW0XECOWkEj5lQIUoAAFKEABCsQvkD4dM60yj5+D5c88hSKnFXX7OqJ0qi7D3bAShU33wP6711A5fybGB+IzmiwoqXwFzdZbsGnpJhy4EO/VN60McRsFKEABCpdVlhUAAATRSURBVFCAAhSILJDeHbNgub043u5BT/B7yIeu32Nfw+9RtGENFmWODdkpvk6G5YfrUY3tWPPqe+jSCMFNFKAABShAAQpQYKgCOumYWbCs+F5M1NTyocv1NvZ4zbh/xlREBJl4L4qXWeDd8zZcXRzQ1KTkRgpQgAIUoAAFhiQQsR8ypFiT5GCf93288tOX0ZL3JJbMmxIhV9dx8ewpeJGFWXcpA5gRgorN3lM4e5HDmVGEuIsCFKAABShAgUEKpE/HzLsJhZMyVLMpDcgwv4iLD22Ca+9qWManT1EHWdc8jAIUoAAFKECBJBcYk+T5iz97YlbmyQ0omDjQDthYTJuRAxNa0H6+B5g5LnqaphzMmKZ1H1r0w7iXAhSgAAUoQAEKxBIYaC8mVnwpuN+IibnfxTKTBx+e/TzyzM2uP+DQHjdMy76L3AF3/lKQhVmmAAUoQAEKUCDhArrsmPkuOLDCnI96d2Ce5sRvYsn6b6Ll2W0RlsO4DPcvGrAFq7HtRw/2TSKQ1z77Lyh3fCpXnM97GHX55sBwajFqHCcjzwRNeFUzQQpQgAIUoAAFkl1Afx2znmNoWLoGNq+6aibDsn4nWpf/CaXf+u+oP9wR7FD5vG446tdhYdUN1L5eG1xOw+c9hl21FSjcdDwQ0U189oEdTVnbcL63F92uv8exnb+FhxM41dD8TAEKUIACFKBAFAF9dcx85+BYV4/Op1/FpuwQFWMmCjY2w9O8GFPeXosJgUc8ZZjrcHTKYjR7mrGxIFO1nEYGvr5kK45aZwciugrPmfOYv+BbyDQaMf6e+zDv+DGc+OxmSEL86he4ig7bEhgMuahp+zwiiq/DhmKDAeaatsjrx/lOwlZshsFch7aIS5kwPYFMT4EwfOfLsMYVsRUk04742tFwuvCcHd5zlp7D6zkSrdMgiWcYBV7ieZOqr8rmNHm/DHf9arw6pRbby65hx+xK4I1mVFriWCIjokAP3PWP49Wsf8Cukq+pPt8N3HSjfvZryPrNNpSYUmuORXqfBxErkzsokNICbLcpXX3MvE4FtNptavUYhlJx3ja8WrUXu7EXu1cEIsqtRJYn9TpOQ2HgsRSgAAUoQAEKJK+AfoYyTSXYpTzg/IYL1uw8WF31w3g1axzMWXfh8NE/oQs+9Hz0Lg5mz8OcO/XT903e05w5owAFKEABCqSGgH46ZiNeH2Nw5wNFeHhPISYZMjAh14aslYXIofCIyzMBClCAAhSgQLoI6Oges3SpspEvh9aY98inyhQoQIGhCLDdDkWPx1JgdAS02i2v54xOXTBVClCAAhSgAAUoECbAjlkYCTdQgAIUoAAFKECB0RFgx2x03JkqBShAAQpQgAIUCBNgxyyMhBsoQAEKUIACFKDA6AiwYzY67kyVAhSgAAUoQAEKhAmwYxZGwg0UoAAFKEABClBgdATYMRsdd6ZKAQpQgAIUoAAFwgTYMQsj4QYKUIACFKAABSgwOgLsmI2OO1OlAAUoQAEKUIACYQLsmIWRcAMFKEABClCAAhQYHYHgI5nEYwH4ogAFKEABClCAAhRInIAkSf0SG6N8C92hbOc7BShAAQpQgAIUoEBiBDiUmRhnpkIBClCAAhSgAAViCrBjFpOIAShAAQpQgAIUoEBiBP4/3BowSlI4tfcAAAAASUVORK5CYII="></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain the electrical conductivity of molten Na<sub>2</sub>O and P<sub>4</sub>O<sub>10</sub>.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Outline the model of electron configuration deduced from the hydrogen line emission spectrum (Bohr’s model).</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br><div class="specification">
<p><span style="background-color: #ffffff;">Carbonated water is produced when carbon dioxide is dissolved in water under pressure.</span></p>
<p><span style="background-color: #ffffff;">The following equilibria are established.</span></p>
<p><img src="data:image/png;base64,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" width="517" height="87"></p>
</div>
<div class="specification">
<p><span style="background-color: #ffffff;">Carbon dioxide acts as a weak acid.</span></p>
</div>
<div class="specification">
<p><span style="background-color: #ffffff;">Soda water has sodium hydrogencarbonate, NaHCO<sub>3</sub>, dissolved in the carbonated water.</span></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p><span style="background-color: #ffffff;">Distinguish between a weak and strong acid.</span></p>
<p> </p>
<p><span style="background-color: #ffffff;">Weak acid: </span></p>
<p><span style="background-color: #ffffff;">Strong acid:</span></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><span style="background-color: #ffffff;">The hydrogencarbonate ion, produced in Equilibrium (2), can also act as an acid.</span></p>
<p><span style="background-color: #ffffff;">State the formula of its conjugate base.</span></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><span style="background-color: #ffffff;">When a bottle of carbonated water is opened, these equilibria are disturbed.</span></p>
<p><span style="background-color: #ffffff;">State, giving a reason, how a decrease in pressure affects the position of Equilibrium (1).</span></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><span style="background-color: #ffffff;">Predict, referring to Equilibrium (2), how the added sodium hydrogencarbonate affects the pH.(Assume pressure and temperature remain constant.)</span></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><span style="background-color: #ffffff;">100.0 cm<sup>3</sup> of soda water contains 3.0 × 10<sup>−2</sup> g NaHCO<sub>3</sub>.</span></p>
<p><span style="background-color: #ffffff;">Calculate the concentration of NaHCO<sub>3</sub> in mol dm<sup>−3</sup>.</span></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><span style="background-color: #ffffff;">Identify the type of bonding in sodium hydrogencarbonate.</span></p>
<p> </p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">Between sodium and hydrogencarbonate:</span></span></p>
<p><span style="background-color: #ffffff;"><span style="background-color: #ffffff;">Between hydrogen and oxygen in hydrogencarbonate:</span></span></p>
<div class="marks">[2]</div>
<div class="question_part_label">b(iii).</div>
</div>
<br><hr><br><div class="specification">
<p>A student titrated an ethanoic acid solution, CH<sub>3</sub>COOH (aq), against 50.0 cm<sup>3</sup> of 0.995 mol dm<sup>–3</sup> sodium hydroxide, NaOH (aq), to determine its concentration.</p>
<p>The temperature of the reaction mixture was measured after each acid addition and plotted against the volume of acid.</p>
<p><img src="data:image/png;base64,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"></p>
</div>
<div class="specification">
<p>Curves <strong>X</strong> and <strong>Y</strong> were obtained when a metal carbonate reacted with the same volume of ethanoic acid under two different conditions.</p>
<p style="text-align: center;"><img src="data:image/png;base64,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"></p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Using the graph, estimate the initial temperature of the solution.</p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the maximum temperature reached in the experiment by analysing the graph.</p>
<div class="marks">[1]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the concentration of ethanoic acid, CH<sub>3</sub>COOH, in mol dm<sup>–3</sup>.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the heat change, <em>q</em>, in kJ, for the neutralization reaction between ethanoic acid and sodium hydroxide.</p>
<p>Assume the specific heat capacities of the solutions and their densities are those of water.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the enthalpy change, Δ<em>H</em>, in kJ mol<sup>–1</sup>, for the reaction between ethanoic acid and sodium hydroxide.</p>
<div class="marks">[2]</div>
<div class="question_part_label">d.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Explain the shape of curve <strong>X</strong> in terms of the collision theory.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest <strong>one</strong> possible reason for the differences between curves <strong>X</strong> and <strong>Y</strong>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e.ii.</div>
</div>
<br><hr><br><div class="specification">
<p>Ammonia, NH<sub>3</sub>, is industrially important for the manufacture of fertilizers, explosives and plastics.</p>
</div>
<div class="specification">
<p>Ammonia is produced by the Haber–Bosch process which involves the equilibrium:</p>
<p style="text-align: center;">N<sub>2 </sub>(g) + 3 H<sub>2 </sub>(g) <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mo>⇌</mo></math> 2 NH<sub>3 </sub>(g)</p>
</div>
<div class="specification">
<p>The effect of temperature on the position of equilibrium depends on the enthalpy change of the reaction.</p>
</div>
<div class="specification">
<p>Ammonia is soluble in water and forms an alkaline solution:</p>
<p style="text-align: center;">NH<sub>3 </sub>(g) + H<sub>2</sub>O (l) <math xmlns="http://www.w3.org/1998/Math/MathML" class="wrs_chemistry"><mo>⇌</mo></math> NH<sub>4</sub><sup>+ </sup>(aq) + HO<sup>– </sup>(aq)</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw arrows in the boxes to represent the electron configuration of a nitrogen atom.</p>
<p style="text-align:left;"><img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Draw the Lewis (electron dot) structure of the ammonia molecule.</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>Deduce the expression for the equilibrium constant, <em>K</em><sub>c</sub>, for this equation.</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>Explain why an increase in pressure shifts the position of equilibrium towards the products and how this affects the value of the equilibrium constant, <em>K</em><sub>c</sub>.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State how the use of a catalyst affects the position of the equilibrium.</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>Determine the enthalpy change, Δ<em>H</em>, for the Haber–Bosch process, in kJ. Use Section 11 of the data booklet.</p>
<div class="marks">[3]</div>
<div class="question_part_label">d(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the enthalpy change, Δ<em>H</em><sup>⦵</sup>, for the Haber–Bosch process, in kJ, using the following data.</p>
<p><math class="wrs_chemistry" xmlns="http://www.w3.org/1998/Math/MathML"><mo>∆</mo><msubsup><mi>H</mi><mrow><mo> </mo><mi mathvariant="normal">f</mi></mrow><mo>⦵</mo></msubsup><mfenced><msub><mi>NH</mi><mn>3</mn></msub></mfenced><mo>=</mo><mo>-</mo><mn>46</mn><mo>.</mo><mn>2</mn><mo> </mo><mi>kJ</mi><mo> </mo><msup><mi>mol</mi><mrow><mo>-</mo><mn>1</mn></mrow></msup></math>.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Suggest why the values obtained in (d)(i) and (d)(ii) differ.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d(iii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>State the relationship between NH<sub>4</sub><sup>+</sup> and NH<sub>3</sub> in terms of the Brønsted–Lowry theory.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e(i).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Determine the concentration, in mol dm<sup>–3</sup>, of the solution formed when 900.0 dm<sup>3</sup> of NH<sub>3 </sub>(g) at 300.0 K and 100.0 kPa, is dissolved in water to form 2.00 dm<sup>3</sup> of solution. Use sections 1 and 2 of the data booklet.</p>
<div class="marks">[2]</div>
<div class="question_part_label">e(ii).</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Calculate the concentration of hydroxide ions in an ammonia solution with pH = 9.3. Use sections 1 and 2 of the data booklet.</p>
<div class="marks">[1]</div>
<div class="question_part_label">e(iii).</div>
</div>
<br><hr><br><div class="specification">
<p>Vanadium, another transition metal, has a number of different oxidation states.</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="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>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">b.</div>
</div>
<br><hr><br><div class="specification">
<p>This question is about carbon and chlorine compounds.</p>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Ethane, C<sub>2</sub>H<sub>6</sub>, reacts with chlorine in sunlight. State the type of this reaction and the name of the mechanism by which it occurs.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[1]</div>
<div class="question_part_label">a.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Formulate equations for the two propagation steps and one termination step in the formation of chloroethane from ethane.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[3]</div>
<div class="question_part_label">b.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>One possible product, <strong>X</strong>, of the reaction of ethane with chlorine has the following composition by mass:</p>
<p>carbon: 24.27%, hydrogen: 4.08%, chlorine: 71.65%</p>
<p>Determine the empirical formula of the product.</p>
<div class="marks">[2]</div>
<div class="question_part_label">c.i.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>The mass and <sup>1</sup>H<span class="mjpage"><math xmlns="http://www.w3.org/1998/Math/MathML" alttext="\,">
<mspace width="thinmathspace"></mspace>
</math></span>NMR spectra of product <strong>X</strong> are shown below. Deduce, giving your reasons, its structural formula and hence the name of the compound.</p>
<p><img src="data:image/png;base64,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"></p>
<div class="marks">[3]</div>
<div class="question_part_label">c.ii.</div>
</div>
<div class="question" style="padding-left: 20px; padding-right: 20px;">
<p>Chloroethene, C<sub>2</sub>H<sub>3</sub>Cl, can undergo polymerization. Draw a section of the polymer with three repeating units.</p>
<div class="marks">[1]</div>
<div class="question_part_label">d.</div>
</div>
<br><hr><br>