AQA AS Chemistry C2 Amount of Substance and Kerboodle Answers

This page contains the AQA AS  Chemistry C2 Substance Amount Questions and kerboodle answers for revision and understanding Substance Amount.This page also contains the link to the notes and video for the revision of this topic.

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C2.1Relative atomic and molecular masses, the Avogadro constant, and the moleAQA AS Chemistry C2 Amount of Subtance and Kerboodle Answers: Page No. 24

  a CH4 16.0 b Na2CO3 106.0 c Mg(OH)2 58.3 d (NH4)2SO4 132.1 Many answers possible such that the relative atomic masses add up to 16, for example. 16 hydrogen atoms; or one carbon atom and 4 hydrogen atoms. 3 Calculate the number of moles in the given masses of the following entities. a 32.0gCH4 2 b 5.30g Na2CO33 0.05 c 5.83g Mg(OH)2 0.1 4. 4g O2 5 11g CO2

C2.2 Moles in solutions AQA AS Chemistry C2 Amount of Subtance and Kerboodle Answers : Page No. 26

Summary questions 1   1 mol dm-3 b 0.250 mol acid in 2000 cm3 of solution 0.125 mol dm-3 c 0.200 mol solu× 1te in 20 cm3 of solution 10 mol dm-3 2 Calculate how many moles of solute there are in the following. a 20.0 cm3 of a 0.100 mol drn•3 solution 0.002 b 50.0 cm3 of a 0.500 mol dm-3 solution 0.025 c 25.0 cm3 of a 2.00 mol dm-3 solution 0.05 3 0.234 g of sodium chloride was dissolved in water to make 250 cm3 of solution. a State the Mr for NaCl. ArNa= 23.0, Ar Cl= 35.5 58.5 b Calculate how mang moles of NaCl is in 0.234 g. 0.004 c Calculate the concentration in mol dm3 0.016

C2.3 The ideal gas equation AQA AS Chemistry C2 Amount of Subtance and Kerboodle Answers : Page No. 29

Summary Questions 1 © Approximately 8.75 x 106 b The original design used helium. State how many moles of helium atoms it would have contained. Approximately 8.75 x 106 2. 50360 cm3 b Calculate the pressure of 0.5 moles of a gas if the volume is 11000 cm3, and the temperature is 25 °C. 113000 Pa 3 1.94 4 1.94 The same number or moles of any gas has the same volume under the same conditions of temperature and pressure.

C2.4 Empirical and molecular formulae AQA AS Chemistry C2 Amount of Subtance and Kerboodle Answers: Page No. 34

Summary questions 1 H2SO4 sulfuric acid b A white solid containing 4.0 g calcium, 3.2 g oxygen, and 0.2 g hydrogen. Ca(OH)2 calcium hydroxide c A white solid containing 0.243 g magnesium and 0.?10 g chlorine. MgCl2 magnesium chloride 2 a Calculate how many moles of magnesium and oxygen are present in 6.448 g Of magnesium oxide. 0.16mol Mg. 0.16 mol O b State the empirical formula of magnesium oxide. MgO 3 State the empirical formula of each of the following molecules? a cyclohexane, C6H12 CH2 bdichloroethene, C2H2C12 CHCI c benzene, C6H6 CH 4 C2H6O2 5 C3H6O 6 CH b the molecular formula. C6H6

C2.5 Balanced equations and related calculationsAQA AS Chemistry C2 Amount of Subtance and Kerboodle Answers: Page No. 38

Summary questions 1 a Mg + O2MgO 2Mg + 02 → 2Mg0 b Ca(OH)2 +HCl CaCl2 + H2O Ca(OH)2 + 2HC1 → CaCl2 + 2H20 c Na2O+HNO3 NaNO3 + H2O Na2O + 2HNO3→ 2NaNO3 + H2O 2 0.25mol dm-3 3 Yes. there are 0.107 mol Mg. This would be enough to rcac1 with 0.0.214 molHCl. but there is only 0.100 mol HCI. b 1238 cm3 4 HSO(aq) + 2NaOH(aq) → NaS04 (aq) + 2H20(1) ii in terms of ions. 2H+ + SO42-+ 2Na++ 2OH→2Na++ SO42-+ 2H20 b Identify the spectator ions in this reaction. Na+ and SO42

C2.6 Balanced equations, atom economies, and percentage yields AQA AS Chemistry C2 Amount of Subtance and Kerboodle Answers​ : Page No. 41

Summary questions 1 Cacooo→Cao + coo 56.0% 2 79.8% 3 100% All the reactants arc incorporated imo the desired product 4 Consider the reaction CaCO3 CO2 + CaO a 1 mol b 5.6 g c If 3.6 g of calcium oxide was obtained, calculate the yield of the reaction. 64.3% Banner 2

Practice questions: Page No. 42-43

1 Potassium nitrate, KNO3, decomposes on strong heating, forming oxygen and solid Y as the only products. (a) A 1.00 g sample of KNO3 (M 101.1) was heated strongly until fully decomposed into Y. (i) Calculate the number of moles of KNOB in the 1.00 g sample. Moles KNO 3 = 1.00/101.1 = 9.89 × 10-3mol (ii) At 298 K and kPa, the oxygen gas produced in this decomposition occupied a volume Of 1.22 x 10-4 State the ideal gas equation and use it to calculate the number of moles of oxygen produced in this decomposition. (The gas constant R 8.31 .JK-I mol-I) (5 marks) pV = nRT or n = pV / RT moles O2 = n = pV / RT = (100 000 × 1.22 × 10–4) / (8.31 × 298) = 4.93 × 10–3 mol (b) Compound Y contains 45.9% of potassium and 16.5% of nitrogen by mass, the remainder being oxygen. (i) State what is meant by the term empirical formula. Simplest ratio of atoms of each element in a compound. (ii) Use the data above to calculate the empirical formula of Y. (4 marks) (c) Deduce an equation for the decomposition of KINO, into Y and oxygen. (1 mark) AQA, 2006 2KNO3 → 2KNO2 + O2 2 Ammonia is used to make nitric acid, HNO3, by the Ostwald Process. Three reactions occur in this process. Reaction 1 4NH3(g) + 5O2 (g) 4NO(g) + 6H2O(g) Reaction 2 2NO(g) + O2(g) 2NO2(g) Reaction 3 3NO2(g) + 2HNO/(aq) + NO(g) (a) In one production run, the gases formed in Reaction I occupied a total volume of 4.31 1113 at 25 oc and 100 kPa. Calculate the amount, in moles, of NO produced. Give your answer to the appropriate number of significant figures. (The gas constant R z 8.31 J K -1 mol-1) (4 marks) P = 100 000 Pa and T = 298 K n = PV/RT or (100 000 × 4.31) / (8.31 × 298) n(total) = 174(.044) n (NO) = 69.6 (b) In another production run, 3.00 kg of ammonia gas were used in Reaction I and all of the NO gas produced was used to make NO2 gas in Reaction 2. Calculate the mass of NC)2 formed from 3.00 kg of ammonia in Reaction 2 assuming an 80.0% yield. Give your answer in kilograms. (5 marks) 3000 / 17 176.5 176.47 × 46 = 8117.62 8117.62 × 80 / 100 ( = 6494 g) 6494 / 1000 = 6.5 OR If 163 mol used: 163 × 46 = 7498 (1) 7498 × 80 / 100 = 5998.4 g (1) 6.00 kg (1) (c) Consider Reaction 3 in this process. 3NO2 (g) + H2O(1) 2HNO3(aq) + NO(g) Calculate the concentration of nitric acid produced when 0.543 mol of N02 is reacted with water and the solution is made up to 250cm3. (2 marks) 0.543 × 2 / 3 ( = 0.362) 0.362 × 1000 / 250 = 1.45 mol dm-3 (d) Suggest why a leak of NO2 gas from the Ostwald Process will cause atmospheric pollution. (1 mark) NO2 contributes to acid rain / is an acid gas /forms HNO3 / NO2 is toxic / photochemical smog (e) Give one reason why excess air is used in the Ostwald Process. (1 mark) Ensure the ammonia is used up / ensure complete reaction or combustion OR Maximise the yield of nitric acid or products (f) Ammonia reacts with nitric acid as shown in this equation. NH3 + HNO3 -o NH4NO3 Deduce the type of reaction occurring. (1 mark) AQA, 2013 Neutralisation 3 Zinc forms many different salts including zinc sulfate, zinc chloride, and zinc fluoride. (a) People who have a zinc deficiency can take hydrated zinc sulfate, ZnSO .xH20, as a dietary supplement. A student heated 4.38 g of hydrated zinc sulfate and obtained 2.46 g of anhydrous zinc sulfate. Use these data to calculate the value of the integer x in ZnS04.xH20. Show your working. (3 marks) Method 1 Mass of H2O = 4.38-2.46 = 1.92 g ZnSO4 H2O 2.46 / 161.5 1.92 / 18(0.0152 0.107)( 1 : 7 ) x = 7 Method 2 Percentage of H2O = 44% ZnSO4 H2O 56 / 161.5 18 / 44 (0.347 2.444)( 1 : 7 ) x = 7 (b) Zinc chloride can be prepared in the laboratory by the reaction between zinc oxide and hydrochloric acid. The equation for the reaction is: ZnO + 2HCl ZnCl2 + H2O A 0.0830 mol sample of pure zinc oxide was added to 100 cm3 of 1.20 moldrn-g hydrochloric acid. Calculate the maximum mass of anhydrous zinc chloride that could be obtained from the products of this reaction. Give your answer to the appropriate number of significant figures.  (4 marks) Moles HCl = 0.12(0) mol ZnCl2 = 0.06(0) OR 0.12 / 2 mass ZnCl2 = 0.06 × 136.4 = 8.18(4) g OR 8.2 g (c) Zinc chloride can also be prepared in the laboratory by the reaction between zinc and hydrogen chloride gas. Zn + 2HCl ZnCl2 + H2. An impure sample of zinc powder with a mass of 5.68 g was reacted with hydrogen chloride gas until the reaction was complete. The zinc chloride produced had a mass of 10.7 g. Calculate the percentage purity of the zinc metal. Give your answer to 3 significant figures. (4 marks) AQA, 2013 Moles ZnCl2 = 10.7 / 136.4 (= 0.0784) OR moles Zn = 0.0784 Mass Zn reacting = 0.0784 × 65.4 = 5.13 g % purity of Zn = 5.13 / 5.68 × 100 = 90.2% OR 90.3% 4 In this question give all your answers to the appropriate number of significant figures. Magnesium nitrate decomposes on heating to form magnesium oxide, nitrogen dioxide, and oxygen as shown in the following equation. 2Mg(NO3)2 (s)   2MgO(s) + 4NO2 (g) + O2(g) (a) Thermal decomposition of a sample of magnesium nitrate produced 0.741 g of magnesium oxide. (i) Calculate the amount, in moles, of MgO in 0.741 g of magnesium oxide. (2 marks) MrMgO = 40.3 0.741/40.3 = 0.0184 (ii) Calculate the total amount, in moles, of gas produced from this sample of magnesium nitrate. (1 mark) 0.0184 × 5 / 2 = 0.0460 (b) In another experiment, a different sample of magnesium nitrate decomposed occupy at 333 K and 1.00 x Pa. (The gas constant R 8.31 JK-1 mol-1) (3 marks) pV=nRT (V= 0.402 × 8.31 × 333 ) / 100 000 0.0111 11.1 dm3 (c) A 0.0152 mol sample of magnesium oxide, produced from the decomposition of magnesium nitrate, was reacted with hydrochloric acid. Mgo + 2HCl  MgCl2 + H2O This 0.0152 mol sample of magnesium oxide required 32.4 cm3; of hydrochloric acid for complete reaction. Use this information to calculate the concentration, in mol dm-3, of the hydrochloric acid. (2 marks) AQA, 2010 0.0152 × 2 = 0.0304 0.938 mol dm-3 Banner 3 DISCLAIMER Disclaimer: I have tried by level best to provide the answers and video explanations to the best of my knowledge. All the answers and notes are written by me and if there is any similarity in the content then it is purely coincidental. But this is not an alternative to the textbook. You should cover the specification or the textbook thoroughly. This is the quick revision to help you cover the gist of everything. In case you spot any errors then do let us know and we will rectify it. References: BBC Bitesize AQA GCSE Science Kerboodle textbook Wikipedia Wikimedia Commons Join Our Free Facebook Group : Get A* in GCSE and A LEVEL Science and Maths by Mahima Laroyia: https://www.facebook.com/groups/expertguidance.co.uk/ For Free Tips, advice and Maths and Science Help