Energetics (AQA A Level Chemistry)

Exam Questions

3 hours45 questions
11 mark

The enthalpy change of a chemical reaction can be found using the following relationship:

q = mcΔT

In this expression, which of the following is true?

  • The unit of q is kJ

  • m represents the amount of substance in moles

  • c is the specific heat capacity of the substance

  • The temperature is measured in Centigrade

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21 mark

Which equation represents both an enthalpy change of formation and combustion?

  • 2CH4 (g) + 3O2 (g) → 2CO (g) + 4H2O (l)

  • 4Na (s) + O2 (g) → 2Na2O (s)

  • HCl (aq) + NaOH (aq) → NaCl (aq) + H2O (l)

  • CO2 (g) + C (s) → 2CO (g)

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31 mark

Hydrogen atoms bond covalently to iodine atoms to form hydrogen iodide.

H2 (g) + I2 (g) → 2HI (g)

Which statement best describes what is meant by the average HI bond enthalpy? 

  • The energy stored in a covalent bond

  • The energy required to break one covalent bond in the gas phase

  • The energy required to break one mole of the HI bonds in the gas phase

  • The energy released when two atoms form a covalent bond

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41 mark

Which processes have a negative enthalpy change?

 

The combustion of an alcohol

The reaction between hydrochloric acid and sodium hydroxide

Water vapour condensing 

A

B

C

D

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    51 mark

    The incomplete combustion of methanol can produce carbon monoxide and water.

    Some enthalpy data is given in the table.

     

    C-H

    C-O

    O-H

    O=O

    C=O

    Mean bond dissociation enthalpy / kJ mol−1

    412

    360

    463

    496

    743

    What is the enthalpy change for this incomplete combustion of methanol?

    • 40

    • -40

    • -503

    • 886

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    61 mark

    Which is the correct definition for the standard enthalpy of combustion?

    • The enthalpy change when the reactants in a stoichiometric equation react to give the products, under standard conditions.

    • The enthalpy change when one mole of a substance is burnt in excess oxygen, under standard conditions.

    • The enthalpy change when one mole of water is formed by reacting an acid and an alkali, under standard conditions.

    • The enthalpy change when one mole of a product is formed from its elements, under standard conditions.

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    71 mark

    25.0 cm3 of nitric acid is reacted with 25.0 cm3 of potassium hydroxide. The temperature change for the reaction is 7.2 K.

    Assume that the resulting solution has a density of 1.0 g cm3.

    The specific heat capacity of water is 4.18 J K-1 g-1

    Using the equation q = mcΔT, how much energy is released in this experiment?

    • 1505 J

    • 1505 kJ

    • 752 kJ

    • 752 J

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    81 mark

    1.20 g of ethanol is combusted releasing 35 500 J of energy.

    What is the molar enthalpy change for the combustion of ethanol?

    • - 1360 kJ mol-1

    • - 1360153.3 kJ mol-1

    • - 29.5 kJ mol-1

    • - 29583.3 kJ mol-1

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    91 mark

    Which is the correct definition of mean bond enthalpy?

    • The amount of energy required to break a specific covalent bond in the gas phase.

    • The energy required to break one mole of a specific covalent bond with all chemicals in their standard states.

    • The amount of energy required to break a specific covalent bond with all chemicals in their standard states.

    • The energy required to break one mole of a specific covalent bond in the gas phase, with all chemicals in their standard states.

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    101 mark

    A student drew a Hess cycle to calculate the enthalpy of reaction to produce ethane from ethene and hydrogen.

    K26kHw4G_1

    The student used the following enthalpy of combustion data.

     

    C2H4 (g)

    H2 (g)

    C2H6 (g)

    ΔHcϴ / kJ mol-1

    - 1411

    - 286

    - 1560

    What are the correct labels for the arrows for the student’s Hess cycle?

     

    Arrow 1

    Arrow 2

    Arrow 3

    Arrow 4

    A

    ΔHrϴ

    - 1411

    - 286

    - 1560

    B

    ΔHcϴ

    - 1411

    + 286

    - 1560

    C

    ΔHcϴ

    + 1411

    - 286

    + 1560

    D

    ΔHrϴ

    - 1411

    - 286

    + 1560

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      11 mark

      A student mixed 30.0 cm3 of 0.0250 mol dm-3 potassium hydroxide solution with 30.0 cm3 of 0.0250 mol dm-3 nitric acid. The temperature rose by 0.50 degreeC.

      Assume that both solutions have the same initial temperature, a density of 1.0 g cm–3 and a specific heat capacity of 4.18 J K–1 g–1.

      What is the enthalpy of neutralisation? 

      • 167.2 kJ mol-1

      • 83.6 kJ mol-1

      • -83.6 kJ mol-1

      • -167.2 kJ mol-1

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      21 mark

      The combustion of ethanol (C2H5OH) is increasingly being used to fuel cars. 

      The enthalpy change of combustion of hydrogen is –286 kJ mol-1

      The enthalpy change of combustion of carbon is –394 kJ mol-1

      The enthalpy change of combustion of ethanol is – 1367 kJ mol-1

      Using the enthalpy of combustion data, what is the enthalpy change for the formation of ethanol?

      • 687 kJ mol-1

      • -279 kJ mol-1

      • -2047 kJ mol-1

      • -3013 kJ mol-1

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      31 mark

      An experiment was carried out to determine the approximate value for the molar enthalpy change of reaction between hydrochloric acid and sodium hydroxide.. 

      • 50.0 cm3 of 2.00 mol dm–3 hydrochloric acid was placed in a polystyrene beaker of negligible heat capacity

      • The temperature of the acid was recorded as 19.0 degreeC

      • 75.0 cm3 of 1.50 mol dm−3 sodium hydroxide at the same temperature was quickly added and the solution stirred

      • The temperature rose to 33.0 degreeC

      Assume that both solutions have a density of 1.0 g cm–3 and a specific heat capacity of 4.18 J K–1 g–1.

      Which value for the molar enthalpy change of reaction is correct? 

      • -73.2 kJ mol-1

      • 73.2 kJ mol-1

      • -65.0 kJ mol-1

      • 65.0 kJ mol-1

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      41 mark

      The first stage in the industrial production of nitric acid from ammonia can be represented by the following equation.

      4NH3 (g) + 5O2 (g) rightwards harpoon over leftwards harpoon 4NO (g) + 6H2O (g)

      Using the following standard enthalpy change of formation data, what is the value of the standard enthalpy change for this reaction?

      Compound 

      bold increment bold H subscript bold f to the power of bold empty set / kJ mol– 1

      NH3 (g)

      -51.3

      NO (g)

      +92.2

      H2O(g)

      -239.6

      • +863.6 kJ mol–1

      • +1274.0  kJ mol–1

      • –863.6 kJ mol–1

      • –1274.0 kJ mol–1

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      51 mark

      Nitrogen reacts with fluorine according to the following equation.

      N2 (g)  +  3F2 (g)  →  2NF3 (g)   ΔHr = -246 kJ

      The bond energy of  N≡N is 945 kJ mol-1 and F–F is 159 kJ mol-1.

      What is the bond energy of the N–F bond?

      • 225 kJ mol-1

      • 278 kJ mol-1

      • 1350 kJ mol-1

      • 1668 kJ mol-1

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      61 mark

      The complete combustion of ethene, C2H4, is shown in the equation below.

      C2H4 (g) + 3O2 (g) → 2CO2 (g) + 2H2O (l)

      Using the information in the table, what is the enthalpy change of combustion of ethene?

      Bond

      Average bond enthalpy / kJ mol-1

      C−H

      412

      C=C 

      612

      O=O

      496

      C=O

      805

      O−H 

      463

      • +1324 kJ mol–1

      • -1324 kJ mol–1

      • -1936 kJ mol–1

      • +219 kJ mol–1

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      71 mark

      Titanium can be extracted by heating the mineral rutile, TiO2, with carbon according to the following equation.

      TiO2 (s) + 2C (s) → Ti (s) + 2CO (g)

      The standard enthalpy changes of formation of TiO2 (s) and CO (g) are –890 kJ mol-1 and –105 kJ mol-1 respectively.

      What is the standard enthalpy change for the extraction of titanium?

      • +785 kJ mol–1

      • +680 kJ mol–1

      • -680 kJ mol–1

      • -785 kJ mol–1

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      81 mark

      Use the following information to answer this question.

       

      H / kJ mol−1 

      Combustion of carbon

      −393.5 

      Combustion of hydrogen

      −285.8 

      Formation of butane

      −125.2

      The value in kJ mol−1 for the enthalpy of combustion of butane is:

      • -2592 kJ mol-1

      • -2878 kJ mol-1

      • +2592 kJ mol-1

      • +2878 kJ mol-1

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      91 mark

      The table below discusses three types of enthalpy change:

      ‘+’ means that this type of standard enthalpy change can only have positive values,

      ‘–’ means that this type of standard enthalpy change can only have negative values,

      ‘+ / –’ means that either positive or negative values are possible.

      Which row is correct?

       

      Formation 

      Combustion 

      Neutralisation

      A

      +

      +

      + / –

      B

      + / –

      +

      + / –

      C

      + / –

      D

      +

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        101 mark

        A student carried out an experiment to determine the enthalpy change for the combustion of ethanol, using the following method:.

        • Measure the mass of a spirit burner containing ethanol.

        • Place 100.0 cm3 of water in a glass beaker above the spirit burner. 

        • Record the initial temperature of the water.

        • Light the spirit burner and allow it to heat the water for a few minutes. 

        • Extinguish the flame.

        • Record the final temperature of the water.

        • Measure the new mass of the spirit burner.

        Using the following results obtained by the student, how much of the heat energy produced, in kilojoules, by the burning of ethanol went into the water?

        The specific heat capacity of water is 4.18 J K−1 g−1.

        Initial temperature of the water

        21.0 degreeC

        Final temperature of the water

        54.0 degreeC

        Mass of spirit burner before burning

        259.75 g

        Mass of spirit burner after burning

        259.18 g

        • 9.61

        • 13.8

        • 9610

        • 13800

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        11 mark

        In the gas phase, phosphorus pentachloride can be thermally decomposed into gaseous phosphorus trichloride and chlorine. 

        PCl5 → PCl3 + Cl2

        Given the following data, what is the enthalpy change of the reaction?

        Bond 

        P–Cl (in both chlorides)

        Cl – Cl 

        Bond energy / kJ mol–1

        328

        241

        • –415 kJ mol–1

        • +415 kJ mol–1

        • +95 kJ mol–1

        • –95 kJ mol–1

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        21 mark

        The equations below show the formation of sulfur oxides from sulfur and oxygen.

        S (s) + O2 (g) → SO2 (g)           ∆Hf = –297 kJ mol–1

        S (s) + 1½O2 (g) → SO3 (g)     ∆Hf = –395 kJ mol–1

        What is the enthalpy change of reaction, ∆Hf, of 2SO2 (g) + O2 (g) → 2SO3 (g)?

        • +98 kJ mol–1

        • -98 kJ mol–1

        • +196 kJ mol–1

        • -196 kJ mol–1

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        31 mark

        The reaction of hydrochloric acid with sodium hydroxide reached a maximum temperature of 297.4 K.

        Given the following data, how much thermal energy was evolved during this reaction?

        Initial temperature of 25.0 cm3 hydrochloric acid = 17.6 degreeC

        Initial temperature of 25.0 cm3 sodium hydroxide = 18.5 degree

        The specific heat capacity of water is 4.18 J K-1 g-1.

        • 1327.2 J

        • 1421.2 J

        • 1233.1 J

        • 663.6 J

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        41 mark

        The temperature rise when 0.1 MJ of heat energy is absorbed by 2.5 kg of solid aluminium is 44.4 degreeC.

        What is the specific heat capacity of aluminium?

        • 9 x 102 J K−1 g−1

        • 9 x 10-4 J K−1 g−1

        • 9 x 10-1 J K−1 g−1

        • 9 x 10-7 J K−1 g−1

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        51 mark

        An iron cube, with a mass of 0.5 kg, increases in temperature by 12.7 K when heated.

        The specific heat capacity of iron is 0.448 J K-1 g-1.

        What is the enthalpy change for heating the iron cube?

        • 317.5 kJ mol-1

        • 0.317 kJ mol-1

        • 3.15 kJ mol-1

        • -0.317 kJ mol-1

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        61 mark

        The table shows the standard enthalpy of formation, ΔHfθ, for some of the substances in the reaction.

        4FeS2 (s) + 11O2 (g) → 2Fe2O3 (s) + 8SO2 (g)    ΔHrθ = -3312 kJ mol-1 

         

        FeS2 (s)

        Fe2O3 (s)

        ΔHfθ / kJ mol-1 

        -178

        -824

        What is the standard enthalpy of formation, in kJ mol-1, for SO2 (g)?

        • -2376 kJ mol-1

        • -952 kJ mol-1

        • -297 kJ mol-1

        • -119 kJ mol-1

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        71 mark

        When completing experiments to measure enthalpy change for exothermic processes, which of the following is not a reason for the experimental data to be lower than the expected value?

        • Heat transfer to the system

        • Heat loss through convection

        • Water vapour released as a product

        • An inadequate supply of oxygen during combustion

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        81 mark

        Heptathiepane, S7, can undergo complete combustion to form sulfur dioxide.

        S7 (s) + 7O2 (g) → 7SO2 (g)

        Which enthalpy changes can be used to describe this reaction?

         

        ΔHfθ

        ΔHcθ

        ΔHr

        A

        x

        x

        B

        x

        x

        C

        x

        D

        x

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          91 mark

          Consider the reactions

          C2H4 (g) + 2O2 (g) → 2CO (g) + 2H2O (g)            ∆H = −758 kJ mol−1

          2C (s) + 2H2 (g) → C2H4 (g)                                  ∆H = +52 kJ mol−1

          2C (s) + O2 (g) → 2CO (g)                                     ∆H = −222 kJ mol−1

          What is the enthalpy of formation of water?

          • -524 kJ mol-1

          • -484 kJ mol-1

          • -262 kJ mol−1

          • -242 kJ mol−1

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          101 mark

          Butane can be produced by the hydrogenation of buta-1,3-diene.

          C4H6 (g) + 2H2 (g) → C4H10 (g)   ΔH = -248 kJ mol-1

          Some mean bond enthalpy data is given in the table.

          Bond

          C-C

          C-H

          H-H

          Mean bond enthalpy / kJ mol-1

          348

          412

          436

          Use the information in the table and the stated enthalpy change to calculate the bond enthalpy for the C=C bond in buta-1,3-diene.

          • 786 kJ mol-1

          • 612 kJ mol-1

          • 1224 kJ mol-1

          • 830 kJ mol-1

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