Date | May 2022 | Marks available | 1 | Reference code | 22M.1.sl.TZ2.15 |
Level | SL | Paper | 1 | Time zone | TZ2 |
Command term | Deduce | Question number | 15 | Adapted from | N/A |
Question
Which statement is correct about identical pieces of magnesium added to two solutions, X and Y, containing hydrochloric acid at the same temperature?
A. Solution X will reach a higher maximum temperature.
B. Solution Y will reach a higher maximum temperature.
C. Solutions X and Y will have the same temperature rise.
D. It is not possible to predict whether X or Y will have the higher maximum temperature because we cannot identify the limiting reactant.
Markscheme
A
Examiners report
A nice question that required thinking. There were two factors to consider: amount of reactants and temperature rise. Most candidates focused on the same amount of Mg and HCl hence concluded that the temperature rise would be the same. In fact, it is the same amount of heat that is released, however with a larger volume of solution in Y, the temperature rise is higher for X. 40% of the candidates answered correctly.
Syllabus sections
- 18M.1.sl.TZ1.13: The enthalpy of combustion of ethanol is determined by heating a known mass of tap water in a...
- 22M.2.sl.TZ2.1d: Describe two observations that indicate the reaction of lithium with water is exothermic.
-
17N.1.hl.TZ0.17:
The combustion of glucose is exothermic and occurs according to the following equation:
C6H12O6 (s) + 6O2 (g) → 6CO2 (g) + 6H2O (g)
Which is correct for this reaction?
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16N.1.sl.TZ0.1:
Which change of state is exothermic?
A. CO2(s) → CO2(g)
B. H2O(l) → H2O(g)
C. NH3(g) → NH3(l)
D. Fe(s) → Fe(l) -
17M.2.sl.TZ1.4e:
Hydrazine has been used as a rocket fuel. The propulsion reaction occurs in several stages but the overall reaction is:
N2H4(l) → N2(g) + 2H2(g)
Suggest why this fuel is suitable for use at high altitudes.
- 19M.1.hl.TZ1.14: When equal masses of X and Y absorb the same amount of energy, their temperatures rise by 5...
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17M.3.sl.TZ1.5f:
Outline why the thermochemical method would not be appropriate for 0.001 moldm−3 hydrochloric acid and aqueous sodium hydroxide of a similar concentration.
-
17M.2.hl.TZ2.8b.v:
State a technique other than a pH titration that can be used to detect the equivalence point.
-
19N.1.sl.TZ0.13:
What is the enthalpy of combustion, ΔHc, of ethanol in kJ mol−1?
Maximum temperature of water: 30.0°C
Initial temperature of water: 20.0°C
Mass of water in beaker: 100.0 g
Loss in mass of ethanol: 0.230 g
Mr (ethanol): 46.08
Specific heat capacity of water: 4.18 J g−1 K−1
q = mcΔTA.
B.
C.
D.
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18M.1.sl.TZ2.15:
Two 100 cm3 aqueous solutions, one containing 0.010 mol NaOH and the other 0.010 mol HCl, are at the same temperature.
When the two solutions are mixed the temperature rises by y °C.
Assume the density of the final solution is 1.00 g cm−3.
Specific heat capacity of water = 4.18 J g−1 K−1
What is the enthalpy change of neutralization in kJ mol−1?
A.
B.
C.
D.
-
18N.1.sl.TZ0.14:
Which is correct when Ba(OH)2 reacts with NH4Cl?
Ba(OH)2 (s) + 2NH4Cl (s) → BaCl2 (aq) + 2NH3 (g) + 2H2O (l) ΔHΘ = +164 kJ mol−1
-
18N.2.sl.TZ0.7b:
Calculate the standard enthalpy change, ΔHΘ, of step 2 using section 13 of the data booklet.
- 19N.3.sl.TZ0.13a(ii): Explain why fusion is an exothermic process.
-
19M.3.sl.TZ1.2b(iii):
The formula q = mcΔT was used to calculate the energy released. The values used in the calculation were m = 25.00 g, c = 4.18 J g−1 K−1.
State an assumption made when using these values for m and c.
- 19M.1.sl.TZ1.13: When equal masses of X and Y absorb the same amount of energy, their temperatures rise by 5...
-
17M.3.sl.TZ1.5d:
State one other assumption that is usually made in the calculation of the heat produced.
- 17N.1.hl.TZ0.19: The enthalpy change for the dissolution of NH4NO3 is +26 kJ mol–1 at 25 °C. Which statement...
-
19M.3.hl.TZ1.2b(iv):
Predict, giving a reason, how the final enthalpy of reaction calculated from this experiment would compare with the theoretical value.
-
19M.3.hl.TZ1.2b(iii):
The formula q = mcΔT was used to calculate the energy released. The values used in the calculation were m = 25.00 g, c = 4.18 J g−1 K−1.
State an assumption made when using these values for m and c.
-
17M.3.sl.TZ1.5b:
Heat losses would make this method less accurate than the pH probe method. Outline why the thermometric method would always give a lower, not a higher, concentration.
-
19M.3.sl.TZ1.2a(i):
Estimate the time at which the powdered zinc was placed in the beaker.
-
19M.3.sl.TZ1.2a(ii):
State what point Y on the graph represents.
-
17N.2.sl.TZ0.2b:
Explain why the melting points of the group 1 metals (Li → Cs) decrease down the group.
- 19N.3.hl.TZ0.18a(ii): Explain why fusion is an exothermic process.
- 19N.1.sl.TZ0.14: Which quantity is likely to be the most inaccurate due to the sources of error in this...
-
17M.3.sl.TZ1.5a:
Explain how the concentration may be calculated in this way.
-
17N.2.sl.TZ0.1d.i:
Determine the heat change, q, in kJ, for the neutralization reaction between ethanoic acid and sodium hydroxide.
Assume the specific heat capacities of the solutions and their densities are those of water.
-
17N.2.hl.TZ0.3b:
Explain why the melting points of the group 1 metals (Li → Cs) decrease down the group whereas the melting points of the group 17 elements (F → I) increase down the group.
-
16N.1.sl.TZ0.15:
5.35g of solid ammonium chloride, NH4Cl(s), was added to water to form 25.0g of solution. The maximum decrease in temperature was 14 K. What is the enthalpy change, in kJmol-1, for this reaction? (Molar mass of NH4Cl = 53.5gmol-1; the specific heat capacity of the solution is 4.18 Jg-1K-1)
A.
B.
C.
D.
-
17M.3.sl.TZ1.5c:
Suggest how heat loss could be reduced.
-
17M.2.sl.TZ2.8a.ii:
The energy released by the reaction of one mole of hydrogen peroxide with hydroquinone is used to heat 850 cm3 of water initially at 21.8°C. Determine the highest temperature reached by the water.
Specific heat capacity of water = 4.18 kJkg−1K−1.
(If you did not obtain an answer to part (i), use a value of 200.0 kJ for the energy released, although this is not the correct answer.)
-
17N.1.sl.TZ0.13:
Which statement is correct for this reaction?
Fe2O3 (s) + 3CO (g) → 2Fe (s) + 3CO2 (g) ΔH = −26.6 kJ
A. 13.3 kJ are released for every mole of Fe produced.
B. 26.6 kJ are absorbed for every mole of Fe produced.
C. 53.2 kJ are released for every mole of Fe produced.
D. 26.6 kJ are released for every mole of Fe produced.
-
17M.3.sl.TZ1.15c:
Explain, in terms of the molecular structure, the critical difference in properties that makes biodiesel a more suitable liquid fuel than vegetable oil.
-
17M.1.sl.TZ1.13:
Which expression gives the mass, in g, of ethanol required to produce 683.5 kJ of heat upon complete combustion?
(Mr for ethanol = 46.0, )
A.
B.
C.
D.
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19M.3.hl.TZ1.2a(ii):
State what point Y on the graph represents.
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19M.3.sl.TZ1.2b(ii):
To determine the enthalpy of reaction the experiment was carried out five times. The same volume and concentration of copper(II) sulfate was used but the mass of zinc was different each time. Suggest, with a reason, if zinc or copper(II) sulfate should be in excess for each trial.
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18N.2.sl.TZ0.1b.ii:
State another assumption you made in (b)(i).
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19M.3.sl.TZ1.2b(i):
The maximum temperature used to calculate the enthalpy of reaction was chosen at a point on the extrapolated (dotted) line.
State the maximum temperature which should be used and outline one assumption made in choosing this temperature on the extrapolated line.
Maximum temperature:
Assumption:
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22M.1.sl.TZ1.13:
The energy from burning 0.250 g of ethanol causes the temperature of 150 cm3 of water to rise by 10.5 °C. What is the enthalpy of combustion of ethanol, in kJ mol–1?
Specific heat capacity of water: 4.18 J g–1 K–1.
A.
B.
C.
D.
-
19M.3.hl.TZ1.2b(i):
The maximum temperature used to calculate the enthalpy of reaction was chosen at a point on the extrapolated (dotted) line.
State the maximum temperature which should be used and outline one assumption made in choosing this temperature on the extrapolated line.
Maximum temperature:
Assumption:
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18N.2.sl.TZ0.1b.i:
The reaction was carried out in a calorimeter. The maximum temperature rise of the solution was 7.5 °C.
Calculate the enthalpy change, ΔH, 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.
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20N.1.sl.TZ0.28:
A student obtained the following data to calculate , using .
What is the percentage uncertainty in the calculated value of ?
A.
B.
C.
D.
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19M.3.hl.TZ1.2b(ii):
To determine the enthalpy of reaction the experiment was carried out five times. The same volume and concentration of copper(II) sulfate was used but the mass of zinc was different each time. Suggest, with a reason, if zinc or copper(II) sulfate should be in excess for each trial.
-
21M.1.sl.TZ1.14:
What is the enthalpy change, in J, when 5 g of water is heated from 10°C to 18°C?
Specific heat capacity of water: 4.18 kJ kg−1 K−1
A. 5 × 4.18 × 8
B. 5 × 10−3 × 4.18 × 8
C. 5 × 4.18 × (273 + 8)
D. 5 × 10−3 × 4.18 × (273 + 8)
- 21M.1.sl.TZ1.28: The enthalpy of combustion of a fuel was determined using the calorimeter shown. The final...
-
17M.2.sl.TZ1.4f:
Determine the enthalpy change of reaction, ΔH, in kJ, when 1.00 mol of gaseous hydrazine decomposes to its elements. Use bond enthalpy values in section 11 of the data booklet.
N2H4(g) → N2(g) + 2H2(g)
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18N.2.hl.TZ0.1b.i:
The reaction was carried out in a calorimeter. The maximum temperature rise of the solution was 7.5 °C.
Calculate the enthalpy change, ΔH, 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.
-
17N.2.sl.TZ0.1d.ii:
Calculate the enthalpy change, ΔH, in kJ mol–1, for the reaction between ethanoic acid and sodium hydroxide.
-
21M.2.sl.TZ1.3c:
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.
Determine the specific heat capacity of iron, in J g−1 K−1. Use section 1 of the data booklet.
-
19M.3.sl.TZ1.2b(iv):
Predict, giving a reason, how the final enthalpy of reaction calculated from this experiment would compare with the theoretical value.
-
18N.2.hl.TZ0.1b.ii:
State another assumption you made in (b)(i).
- 22M.1.sl.TZ2.13: What is correct about energy changes during bond breaking and bond formation?
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22M.1.sl.TZ2.14:
Which combination of ΔH1, ΔH2, and ΔH3 would give the enthalpy of the reaction?
CS2 (l) + 3O2 (g) → CO2 (g) + 2SO2 (g)
ΔH1 C (s) + O2 (g) → CO2 (g)
ΔH2 S (s) + O2 (g) → SO2 (g)
ΔH3 C (s) + 2S (s) → CS2 (l)A. ΔH = ΔH1 + ΔH2 + ΔH3
B. ΔH = ΔH1 + ΔH2 − ΔH3
C. ΔH = ΔH1 + 2(ΔH2) + ΔH3
D. ΔH = ΔH1 + 2(ΔH2) − ΔH3
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21M.1.sl.TZ2.14:
What is the heat change, in kJ, when 100.0 g of aluminium is heated from 19.0 °C to 32.0 °C?
Specific heat capacity of aluminium: 0.90 J g−1 K−1
A.
B.
C.
D.
-
21M.2.hl.TZ1.3c:
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.
Determine the specific heat capacity of iron, in J g−1 K−1. Use section 1 of the data booklet.
- 21N.1.sl.TZ0.16: Which statement describes an endothermic reaction? A. The bonds broken are stronger than...
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21N.2.sl.TZ0.7a:
Determine the molar enthalpy of combustion of an alkane if 8.75 × 10−4 moles are burned, raising the temperature of 20.0 g of water by 57.3 °C.