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(a) Use information from the Periodic Table provided to identify \textbf{one} element which:
(i) has atoms with exactly 9 protons \text{.................................................................} [1]
(ii) has atoms with 0 neutrons \text{.................................................................} [1]
(iii) has atoms with exactly 23 electrons \text{.....................................................} [1]
(iv) has atoms with an electronic structure of 2,8,6 \text{..........................................} [1]
(v) forms ions with a charge of $3-$ containing 18 electrons \text{.............................} [1]
(vi) forms ions with a charge of $2+$ containing 10 electrons \text{................................} [1]
(vii) has a relative atomic mass that shows it has at least two isotopes. \text{..................} [1]
(b) State which metal in the first 36 elements:
(i) is the Group I element which reacts most vigorously with water \text{............................} [1]
(ii) reacts with air to form lime. \text{......................................................................................} [1]
(c) One element in the first 36 elements is used as the fuel in a fuel cell.
(i) Name this element. \text{...........................................................................} [1]
(ii) Write the overall chemical equation for the reaction which occurs when the element in (c)(i) reacts in a fuel cell. \text{..............................................................} [2]
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The gases Ar, CO_2, N_2 and O_2 are in clean, dry air.
CO, NO, NO_2 and SO_2 are gases commonly found in polluted air.
(a) What percentage of clean, dry air is N_2?
Give your answer to the nearest whole number.
................................. % [1]
(b) Name the process used to separate O_2 from clean, dry air.
........................................................................................................ [2]
(c) State one major adverse effect of the pollutant SO_2.
........................................................................................................ [1]
(d) NO and NO_2 are produced in car engines.
Describe how oxides of nitrogen form in a car engine.
........................................................................................................
........................................................................................................
........................................................................................................ [2]
(e) Many cars have catalytic converters in their exhaust systems. In a catalytic converter, most of the CO and NO formed in a car engine is changed into less harmful products.
Identify these products and state the metal catalyst used.
products .........................................................................................
catalyst .......................................................................................... [3]
(f) CO is formed from the incomplete combustion of fossil fuels such as methane.
Write a chemical equation to show the incomplete combustion of methane.
........................................................................................................ [2]
(g) The CO_2 in air is part of the carbon cycle.
The scheme shows a simple representation of part of the carbon cycle.
(i) State the scientific terms for each of process A and process B.
A .................................................................................................
B ................................................................................................. [2]
(ii) Plants convert glucose into complex carbohydrates.
A unit of glucose can be represented as HO—
—OH.
Complete the diagram to show the complex carbohydrate formed from three units of glucose. Show all of the atoms and all of the bonds in the linkages.
[2]
(iii) Complex carbohydrates break down to form simple sugars.
State two ways that complex carbohydrates can be broken down into simple sugars.
1 .................................................................................................
2 ................................................................................................. [2]
(iv) Name a suitable technique for separating and identifying the individual sugars formed when complex carbohydrates are broken down.
................................................................................................. [1]
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582
544
(a) Ammonia is manufactured by the Haber process. The reaction is reversible.
(i) What is the sign for a reversible reaction? [1]
(ii) State the essential conditions for the manufacture of ammonia by the Haber process starting from hydrogen and nitrogen. Include a chemical equation to show the reaction which occurs. [5]
(iii) Name one raw material which is a source of the hydrogen used in the Haber process. [1]
(b) Ammonia is a base and reacts with sulfuric acid to form the salt, ammonium sulfate.
(i) What is meant by the term base? [1]
(ii) Name the industrial process used to manufacture sulfuric acid. [1]
(iii) Write a chemical equation for the reaction between ammonia and sulfuric acid. [1]
(c) When aqueous ammonia is added to aqueous iron(II) sulfate a green precipitate is seen. This green precipitate turns red-brown at the surface.
(i) Name the green precipitate. [1]
(ii) Suggest why the green precipitate turns red-brown at the surface. [2]
(iii) State what happens when an excess of aqueous ammonia is added to the green precipitate. [1]
(d) Ammonia reacts with oxygen as shown.
$$4\text{NH}_3(\text{g}) + 5\text{O}_2(\text{g}) \rightarrow 4\text{NO}(\text{g}) + 6\text{H}_2\text{O}(\text{g})$$
(i) Calculate the volume of oxygen at room temperature and pressure, in dm³, that reacts with 4.80 dm³ of ammonia. [3]
(ii) The chemical equation for the reaction can be represented as shown.
$$4\ \text{H}{{\text{---N---N}} \atop {}}\ \text{H} + 5\ \text{O=O} \rightarrow 4\ \text{N=O} + 6\ \text{H}\text{---O}\text{---H}$$
Use the bond energies in the table to calculate the energy change, in kJ/mol, which occurs when one mole of NH₃ reacts.
[Table_1]
• Energy needed to break bonds.
• Energy released when bonds are formed.
• Energy change when one mole of NH₃ reacts.
energy change = ......................... kJ/mol [4]
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519
600
Many substances conduct electricity.
(a) Identify all the particles responsible for the passage of electricity in:
• graphite ................................................................................................................
• magnesium ribbon ..................................................................................................
• molten copper(II) bromide. .....................................................................................
(b) A student used the following apparatus to electrolyse concentrated aqueous sodium chloride using inert electrodes.
(i) Suggest the name of a metal which could be used as the inert electrodes.
................................................................................................................................. [1]
(ii) Name the gas formed at the positive electrode.
................................................................................................................................. [1]
(iii) Write an ionic half-equation for the reaction occurring at the negative electrode. Include state symbols.
................................................................................................................................. [3]
(iv) How, if at all, does the pH of the solution change during the electrolysis? Explain your answer.
.................................................................................................................................
................................................................................................................................. [3]
(c) A student used the following electrochemical cell.
The reading on the voltmeter was +1.10V.
(i) Draw an arrow on the diagram to show the direction of electron flow. [1]
(ii) Suggest the change, if any, in the voltmeter reading if the zinc electrode was replaced with an iron electrode. Explain your answer.
.................................................................................................................................
................................................................................................................................. [2]
(iii) The zinc electrode was replaced with a silver electrode. The reading on the voltmeter was –0.46V. Suggest why the sign of the voltmeter reading became negative.
................................................................................................................................. [1]
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548
Methanol, $\text{CH}_3\text{OH}$, is a member of the homologous series of alcohols.
(a) Methanol can be made from methane in a two-step process.
step 1 Methane is reacted with chlorine gas to produce chloromethane, $\text{CH}_3\text{Cl}$.
step 2 $\text{CH}_3\text{Cl}$ is reacted with sodium hydroxide to produce $\text{CH}_3\text{OH}$ and one other product.
(i) What conditions are needed in step 1?
............................................................. [1]
(ii) Write the chemical equation for the reaction which occurs in step 1.
............................................................. [1]
(iii) State the type of organic reaction occurring in step 1.
............................................................. [1]
(iv) Complete the chemical equation for step 2.
$\text{CH}_3\text{Cl} + \text{NaOH} \rightarrow \text{CH}_3\text{OH} + \text{.......................}$ [1]
(b) Draw a dot-and-cross diagram to show the electron arrangement in a molecule of methanol. Show outer shell electrons only.
[Image] [2]
(c) Methanol reacts with propanoic acid to form an ester with a molecular formula $\text{C}_4\text{H}_8\text{O}_2$.
(i) Name the ester formed when methanol reacts with propanoic acid.
............................................................. [1]
(ii) Name one other substance formed when methanol reacts with propanoic acid.
............................................................. [1]
(iii) Draw the structure of an ester which is a structural isomer of the ester named in (c)(i). Show all of the atoms and all of the bonds.
[Image] [3]
(iv) State the conditions needed to form an ester from a carboxylic acid and an alcohol.
............................................................. [1]
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