Question 1

A balloon is inflated from 0.0100 L to 0.500 L against an external pressure of 10.00 bar.How much work is done in joules? (100 J = 1 L bar)&#10;A)-49.0J&#10;B)49.0 J&#10;C)0.490 J&#10;D)-0.490 J&#10;E)-490 J

Accepted Answer

-490 J

Question 2

Define heat capacity.&#10;A)the quantity of heat required to raise the temperature of 1 mol of a substance by 1 &#176;C&#10;B)the quantity of heat required to change a system's temperature by 1 &#176;C&#10;C)the quantity of heat required to raise the temperature of 1 g of a substance by 1 &#176;C&#10;D)the quantity of heat required to raise the temperature of 1 g of a substance by 1 &#176;F&#10;E)the quantity of heat required to raise the temperature of 1 L of a substance by 1 &#176;C

Accepted Answer

the quantity of heat required to change a system's temperature by 1 &#176;C

Question 3

Identify the unit of specific heat capacity. A)°C^-1 B)Jg^-1 °C^-1 C)J mol^-1 °C^-1 D)g °C^-1 E)mol °C^-1

Accepted Answer

Jg^-1 °C^-1

Question 4

For   U to always be -,what must be true?&#10;A)q = w&#10;B)+q > -w&#10;C)+w > -q&#10;D)-w > +q

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Question 5

Which of the following substances (with specific heat capacity provided)would show the greatest temperature change upon absorbing 100.0 J of heat? A)10.0 g Ag,C_Ag = 0.235 J g^-1 °C^-1 B)10.0 g H₂O, $\mathrm { C } _ { \mathrm { H } _ { 2 } \mathrm { O } }$ = 4.184 J g^-1 °C^-1 C)10.0 g ethanol,C_ethanol = 2.42 J g^-1 °C^-1 D)10.0 g Fe,C_Fe = 0.449 J g^-1 °C^-1 E)10.0 g Au,C_Au = 0.128 J g^-1°C^-1

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Question 6

Energy that is associated with the position or composition of an object is called&#10;A)kinetic energy.&#10;B)thermal energy.&#10;C)potential energy.&#10;D)chemical energy.

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Question 7

Calculate the amount of heat (in kJ)necessary to raise the temperature of 47.8 g benzene by 57.0 K.The specific heat capacity of benzene is 1.05 J g^-1 °C^-1. A)1.61 kJ B)16.6 kJ C)2.59 kJ D)2.86 kJ E)3.85 kJ

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Question 8

Define specific heat capacity.&#10;A)the quantity of heat required to raise the temperature of 1 mol of a substance by 1 &#176;C&#10;B)the quantity of heat required to change a system's temperature by 1 &#176;C&#10;C)the quantity of heat required to raise the temperature of 1 g of a substance by 1 &#176;C&#10;D)the quantity of heat required to raise the temperature of 1 g of a substance by 1 &#176;F&#10;E)the quantity of heat required to raise the temperature of 1 L of a substance by 1 &#176;C

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Question 9

Which of the following is TRUE if   U = -95 J?&#10;A)The system is gaining 95 J,while the surroundings are losing 95 J.&#10;B)The system is losing 95 J,while the surroundings are gaining 95 J.&#10;C)Both the system and the surroundings are gaining 95 J.&#10;D)Both the system and the surroundings are losing 95 J.&#10;E)None of the above are true.

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Question 10

Define molar heat capacity.&#10;A)the quantity of heat required to raise the temperature of 1 mol of a substance by 1 &#176;C&#10;B)the quantity of heat required to change a system's temperature by 1 &#176;C&#10;C)the quantity of heat required to raise the temperature of 1 g of a substance by 1 &#176;C&#10;D)the quantity of heat required to raise the temperature of 1 g of a substance by 1 &#176;F&#10;E)the quantity of heat required to raise the temperature of 1 L of a substance by 1 &#176;C

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Question 11

Calculate the change in internal energy (ΔU)for a system that is giving off 45.0 kJ of heat and is performing 855 J of work on the surroundings. A)44.1 kJ B)-44.1 kJ C)-45.9 kJ D)9.00 × 10² kJ E)-9.00 × 10² kJ

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Question 12

Identify the unit of heat capacity. A)J °C^-1 B)J g^-1 °C^-1 C)J mol^-1 °C^-1 D)g °C^-1 E)mol °C^-1

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Question 13

A piece of iron (C = 0.449 J g^-1 °C^-1 and a piece of gold (C = 0.128 J g^-1 °C^-1)have identical masses.If the iron has an initial temperature of 498 K and the gold has an initial temperature of 298 K,which of the following statements is TRUE of the outcome when the two metals are placed in contact with one another? Assume no heat is lost to the surroundings.

A)Since the two metals have the same mass,the final temperature of the two metals will be 398 K,exactly halfway between the two initial temperatures.
B)Since the two metals have the same mass,but the specific heat capacity of gold is much smaller than that of iron,the final temperature of the two metals will be closer to 298 K than to 498 K.
C)Since the two metals have the same mass,the thermal energy contained in the iron and gold after reaching thermal equilibrium will be the same.
D)Since the two metals have the same mass,the thermal energy contained in each metal after equilibrium will be the same.
E)None of the above is true.

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Question 14

A sample of copper absorbs 43.6 kJ of heat,resulting in a temperature rise of 75.0 °C.Determine the mass (in kg)of the copper sample if the specific heat capacity of copper is 0.385 J g^-1°C^-1. A)1.51 kg B)6.62 kg C)1.26 kg D)7.94 kg E)3.64 kg

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Question 15

Which of the following signs on q and w represent a system that is doing work on the surroundings as well as losing heat to the surroundings?&#10;A)q = - ,w = -&#10;B)q = +,w = +&#10;C)q = -,w = +&#10;D)q = +,w = -&#10;E)None of these represent the system referenced above.

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Question 16

Which of the following signs on q and w represent a system that is doing work on the surroundings as well as gaining heat from the surroundings?&#10;A)q = +,w = -&#10;B)q = -,w = +&#10;C)q = +,w = +&#10;D)q = -,w = -&#10;E)None of these represent the system referenced above.

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Question 17

Which of the following (with specific heat capacity provided)would show the smallest temperature change upon gaining 200.0 J of heat? A)50.0 g Al,C_Al = 0.903 J g^-1 °C^-1 B)50.0 g Cu,C_Cu = 0.385 J g^-1 °C^-1 C)25.0 g granite,C_granite = 0.79 J g^-1 °C^-1 D)25.0 g Au,C_Au = 0.128 J g^-1°C^-1 E)25.0 g Ag,C_Ag = 0.235 J g^-1 °C^-1

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Question 18

Determine the final temperature of a gold nugget (mass = 376 g)that starts at 398 K and loses 4.85 kJ of heat to a snowbank when it is lost.The specific heat capacity of gold is 0.128 J g^-1 °C^-1. A)133 K B)398 K C)187 K D)297 K E)377 K

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Question 19

Determine the specific heat capacity of an alloy that requires 59.3 kJ to raise the temperature of 150.0 g alloy from 298 K to 398 K. A)4.38 J $g ^ { - 1 }$ °C^-1 B)2.29 J $g ^ { - 1 }$ °C^-1 C)3.95 J $g ^ { - 1 }$ °C^-1 D)2.53 J $g ^ { - 1 }$ °C^-1 E)1.87 J $g ^ { - 1 }$ °C^-1

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Question 20

Calculate the amount of heat (in kJ)required to raise the temperature of a 79.0 g sample of ethanol from 298.0 K to 385.0 K.The specific heat capacity of ethanol is 2.42 J g^-1 °C^-1. A)57.0 kJ B)16.6 kJ C)73.6 kJ D)28.4 kJ E)12.9 kJ

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Question 21

Calculate the amount (mass)of acetic acid (C₂H₄O₂,molar mass = 60.052 g mol^-1)that causes a bomb calorimeter with a heat capacity of 8.43 kJ °C^-1 to have a temperature increase from 24.5 °C to 36.8 °C.The D_rU for the combustion of acetic acid is -874.2 kJ mol^-1.

A)6.18 g
B)7.12 g
C)2.18 g
D)9.66 g
E)8.68 g

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Question 22

A bomb calorimeter with a heat capacity of 13.9 kJ °C^-1 has an initial temperature of 21.9 °C.If 5.00 g of propanal (C₃H₆O,molar mass = 58.0791 g mol^-1,D_rU = -1822.7 kJ mol^-1 for combustion)is combusted,calculate the final temperature of the calorimeter.

A)26.1 °C
B)16.7 °C
C)33.2 °C
D)43.1 °C
E)34.0 °C

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Question 23

Identify what a bomb calorimeter measures.&#10;A)measures &#916;H for aqueous solutions&#10;B)measures &#916;U for combustion reactions&#10;C)measures &#916;H for oxidation solutions&#10;D)measures &#916;T for hydrolysis solutions&#10;E)measures &#916;U for reduction reactions

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Question 24

A 6.55 g sample of aniline (C₆H₅NH₂,molar mass = 93.13 g $\mathrm { mol } ^ { - 1 }$ )was combusted in a bomb calorimeter with a heat capacity of 14.25 kJ ${ } ^ { \circ } \mathrm { C } ^ { - 1 }$ .If the initial temperature was 32.9 °C,use the information below to determine the value of the final temperature of the calorimeter. 4C₆H₅NH₂(l)+ 35O₂(g)? 24CO₂(g)+ 14H₂O(g)+ 4NO₂(g)
$\mathrm { D } _ { \mathrm { r } } U ^ { \circ }$ = -1.28 × 10⁴ kJ $\mathrm { mol } ^ { - 1 }$

A)257 °C
B)46.6 °C
C)96.1 °C
D)41.9 °C
E)931 °C

Accepted Answer

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Question 25

Calculate the internal energy change,Δ_rU,for the combustion of 29.3 g of vitamin C (C₆H₈O₆,molar mass = 176.124 g mol^-1)if the combustion inside a bomb calorimeter,C_cal = 8.31 kJ °C^-1,causes a temperature change from 21.5 °C to 68.3 °C.

A)-1.78 × 10³ kJ mol^-1
B)-2.34 × 10³ kJ mol^-1
C)-6.03 × 10³ kJ mol^-1
D)-9.19 × 10² kJ mol^-1
E)-1.67 × 10² kJ mol^-1

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Question 26

A 12.8 g sample of ethanol (C₂H₅OH)is burned in a bomb calorimeter with a heat capacity of 5.65 kJ ${ } ^ { \circ } \mathrm { C } ^ { - 1 }$ .Using the information below,determine the final temperature of the calorimeter if the initial temperature is 25.0°C.The molar mass of ethanol is 46.07 g $\mathrm { mol } ^ { - 1 }$ . C₂H₅OH(l)+ 3O₂(g)? 2CO₂(g)+ 3H₂O(g) $D _ { \mathrm { r } }$ U= -1235 kJ $\mathrm { mol } ^ { - 1 }$

A)53.4 °C
B)28.1 °C
C)111 °C
D)85.7 °C
E)74.2 °C

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Question 27

Calculate the internal energy change,Δ_rU,for the combustion of 6.9261 g of diethylene glycol (C₄H₁₀O₃,molar mass = 106.120 g mol^-1)if the combustion inside a bomb calorimeter,C_cal = 13.84 kJ °C^-1,causes a temperature change from 22.8 °C to 34.0 °C.

A)-4.39 × 10³ kJ mol^-1
B)-9.16 × 10² kJ mol^-1
C)-2.37 × 10³ kJ mol^-1
D)4.39 × 10³ kJ mol^-1
E)1.18 × 10³ kJ mol^-1

Accepted Answer

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Question 28

A chemist wishes to calibrate a bomb calorimeter,so he combusts 7.529 g of D-galactose,Δ_combustionU = -15.48 kJ g^-1,which causes a temperature change from 26.38 °C to 34.60 °C.What should the chemist report for the value of C_cal?

A)24.34 kJ °C^-1
B)8.009 kJ °C^-1
C)14.18 kJ °C^-1
D)16.67 kJ °C^-1
E)9.170 kJ °C^-1

Accepted Answer

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Question 29

Calculate the change in internal energy (&#916;U)for a system that is giving off 25.0 kJ of heat and is changing from 12.00 L to 6.00 L in volume at 1.50 bar.(Remember that 100 J = 1 L bar)&#10;A)+25.9 kJ&#10;B)-16.0 kJ&#10;C)-25.9 kJ&#10;D)-24.1 kJ&#10;E)937 kJ

Accepted Answer

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Question 30

A 35.6 g sample of ethanol (C₂H₅OH)is burned in a bomb calorimeter according to the following reaction.If the temperature rose from 35.0 °C to 76.0°C and the heat capacity of the calorimeter is 23.3 kJ ${ } ^ { \circ } \mathrm { C } ^ { - 1 }$ ,what is the value of $\mathrm { D } _ { \mathrm { r } } U ^ { \circ }$ ? The molar mass of ethanol is 46.07 g $\mathrm { mol } ^ { - 1 }$ . C₂H₅OH(l)+ 3O₂(g)? 2CO₂(g)+ 3H₂O(g) $\mathrm { D } _ { \mathrm { r } } U ^ { \circ }$ = ?

A)-1.24 × 10³ kJ mol^-1
B)+1.24 × 10³ kJ mol^-1
C)-8.09 × 10³ kJ mol^-1
D)-9.55 × 10³ kJ mol^-1
E)+9.55 × 10³ kJ mol^-1

Accepted Answer

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Question 31

A chemist wishes to calibrate a bomb calorimeter,so she combusts 5.58 g of 4-pentenoic acid,Δ_combustionU = -26.77 kJ g^-1,which causes a temperature change from 23.4 °C to 38.9 °C.What should the chemist report for the value of C_cal?

A)6.10 kJ °C^-1
B)17.5 kJ °C^-1
C)28.7 kJ °C^-1
D)9.64 kJ °C^-1
E)7.61 kJ °C^-1

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Question 32

A 4.98 g sample of aniline (C₆H₅NH₂,molar mass = 93.13 g $\mathrm { mol } ^ { - 1 }$ )was combusted in a bomb calorimeter with a heat capacity of 4.25 kJ ${ } ^ { \circ } \mathrm { C } ^ { - 1 }$ .If the temperature rose from 29.5 °C to 69.8 °C,determine the value of $D _ { \mathrm { r } }$ U for the combustion of aniline.

A)+7.81 × 10³ kJ mol^-1
B)-3.20 × 10³ kJ mol^-1
C)+1.71 × 10³ kJ mol^-1
D)-1.71 × 10³ kJ mol^-1
E)-7.81 × 10³ kJ mol^-1

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Question 33

A 21.8 g sample of ethanol (C₂H₅OH)is burned in a bomb calorimeter according to the following reaction.If the temperature rises from 25.0 °C to 62.3 °C,determine the heat capacity of the calorimeter.The molar mass of ethanol is 46.07 g $\mathrm { mol } ^ { - 1 }$ . C₂H₅OH(l)+ 3O₂(g)? 2CO₂(g)+ 3H₂O(g) $D _ { \mathrm { r } }$ U= -1235 kJ mol^-1

A)4.99 kJ °C^-1
B)5.65 kJ °C^-1
C)63.7 kJ °C^-1
D)33.1 kJ °C^-1
E)15.7 kJ °C^-1

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Question 34

Calculate the internal energy change,Δ_rU,for the combustion of 9.467 g of L-alanine (C₃H₇NO₂,molar mass = 89.094 g mol^-1)if the combustion inside a bomb calorimeter,C_cal = 7.83 kJ °C^-1,causes a temperature change from 24.7 °C to 46.1 °C.

A)-1.58 × 10³ kJ mol^-1
B)6.14 × 10³ kJ mol^-1
C)-3.48 × 10³ kJ mol^-1
D)-8.60 × 10² kJ mol^-1
E)3.84 × 10³ kJ mol^-1

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Question 35

The temperature rises from 25.00 °C to 29.00 °C when 3.50 g of sucrose undergoes combustion in a bomb calorimeter.Calculate _{$\Delta$ r}U for the combustion of sucrose in kJ $\mathrm { mol } ^ { - 1 }$ sucrose.The heat capacity of the calorimeter is 4.90 kJ ${ } ^ { \circ } \mathrm { C } ^ { - 1 }$ .The molar mass of sugar is 342.3 g $\mathrm { mol } ^ { - 1 }$ .

A)-1.92 × 10³ kJ mol^-1
B)1.92 × 10³ kJ mol^-1
C)-1.23 × 10³kJ mol^-1
D)2.35 × 10⁴ kJ mol^-1

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Question 36

A 6.55 g sample of aniline (C₆H₅NH₂,molar mass = 93.13 g $\mathrm { mol } ^ { - 1 }$ )was combusted in a bomb calorimeter.If the temperature rose by 32.9 °C,use the information below to determine the heat capacity of the calorimeter. 4C₆H₅NH₂(l)+ 35O₂(g)? 24CO₂(g)+ 14H₂O(g)+ 4NO₂(g)
D_rU= -3.20 × 10³ kJ mol^-1

A)97.3 kJ

{ } ^ { \circ } \mathrm { C } ^ { - 1 }

B)38.9 kJ

{ } ^ { \circ } \mathrm { C } ^ { - 1 }

C)5.94 kJ

{ } ^ { \circ } \mathrm { C } ^ { - 1 }

D)6.84 kJ

{ } ^ { \circ } \mathrm { C } ^ { - 1 }

E)12.8 kJ

{ } ^ { \circ } \mathrm { C } ^ { - 1 }

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Question 37

An 8.21 g sample of glycerol (C₃H₈O₃,molar mass = 92.0938 g $\mathrm { mol } ^ { - 1 }$ )was combusted in a bomb calorimeter with a heat capacity of 10.61 kJ ${ } ^ { \circ } \mathrm { C } ^ { - 1 }$ .If the temperature increased from 22.1 °C to 36.0 °C,determine $D _ { \mathrm { r } }$ U for the combustion of glycerol.

A)-4.38 × 10³ kJ mol^-1
B)3.65 × 10³ kJ mol^-1
C)2.18 × 10³ kJ mol^-1
D)-2.18 × 10³ kJ mol^-1
E)-1.65 × 10³ kJ mol^-1

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Question 38

Calculate the change in internal energy (&#916;U)for a system that is absorbing 35.8 kJ of heat and is expanding from 8.00 to 24.0 L in volume at 1.00 bar.(Remember that 100 J = 1 L bar)&#10;A)+51.8 kJ&#10;B)-15.8 kJ&#10;C)-16.6 kJ&#10;D)-29.3 kJ&#10;E)+34.2 kJ

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Question 39

A 2.38 g sample of phenol (C₆H₆O,molar mass = 94.11 g $\mathrm { mol } ^ { - 1 }$ )was combusted in a bomb calorimeter with a heat capacity of 6.65 kJ ${ } ^ { \circ } \mathrm { C } ^ { - 1 }$ .If the temperature increased from 23.8 °C to 35.4 °C,determine $D _ { \mathrm { r } }$ U for the combustion of phenol.

A)-8.19 × 10³ kJ mol^-1
B)-5.81 × 10³ kJ mol^-1
C)4.87 × 10³ kJ mol^-1
D)-3.05 × 10³ kJ mol^-1
E)2.41 × 10³ kJ mol^-1

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Question 40

Calculate the amount (mass)of acetaldehyde (C₂H₄O,molar mass = 44.0526 g mol^-1)that causes a bomb calorimeter with a heat capacity of 12.91 kJ °C^-1 to have a temperature increase from 27.8 °C to 41.7 °C.The D_rU for the combustion of acetaldehyde is -1166.9 kJ mol^-1.

A)6.77 g
B)8.67 g
C)4.29 g
D)7.30 g
E)5.55 g

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Question 41

Given w = 0,an endothermic reaction has which of the following properties?&#10;A)+&#916;H and -&#916;U&#10;B)-&#916;H and +&#916;U&#10;C)+&#916;H and +&#916;U&#10;D)-&#916;H and -&#916;U

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Question 42

Which of the following processes is endothermic?&#10;A)the freezing of water&#10;B)the combustion of propane&#10;C)a hot cup of coffee (system)cools on a countertop&#10;D)the chemical reaction in a &#34;hot pack&#34; often used to treat sore muscles&#10;E)the vaporization of rubbing alcohol

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Question 43

How much energy is required to decompose 765 g of PCl₃ according to the reaction below? The molar mass of PCl₃ is 137.32 g $\mathrm { mol } ^ { - 1 }$ and may be useful. 4PCl₃(g)? P₄(s)+ 6Cl₂(g)
D_rH°= +1207 kJ

A)2.31 × 10³ kJ
B)4.33 × 103 kJ
C)6.72 × 10³ kJ
D)1.68 × 10³ kJ
E)5.95 × 10³ kJ

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Question 44

What volume of benzene (C₆H₆,d = 0.88 g mL^-1,molar mass = 78.11 g mol^-1)is required to produce 1.5 × 10³ kJ of heat according to the following reaction? 2C₆H₆(l)+ 15O₂(g)→ 12CO₂(g)+ 6H₂O(g) H°= -6278 kJ

A)75 mL
B)37 mL
C)21 mL
D)19 mL
E)42 mL

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Question 45

Using the following equation for the combustion of octane,calculate the amount of moles of carbon dioxide formed from 100.0 g of octane.The molar mass of octane is 114.33 g $\mathrm { mol } ^ { - 1 }$ .The molar mass of carbon dioxide is 44.0095 g $\mathrm { mol } ^ { - 1 }$ . 2C₈H₁₈ + 25O₂ ? 16CO₂ + 18H₂O
D_rH°= -11018 kJ

A)18.18 moles
B)6.997 moles
C)14.00 moles
D)8.000 moles
E)10.93 moles

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Question 46

According to the following reaction,how much energy is evolved during the reaction of 2.50 L B₂H₆ and 5.65 L Cl₂(both gases are initially at STP)? The molar mass of B₂H₆is 27.67 g $\mathrm { mol } ^ { - 1 }$ . B₂H₆(g)+ 6Cl₂(g)? 2BCl₃(g)+ 6HCl(g)
D_rH°= -1396 kJ

A)57.8 kJ
B)156 kJ
C)215 kJ
D)352 kJ
E)508 kJ

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Question 47

Which of the following processes is endothermic?&#10;A)an atom emits a photon&#10;B)the condensation of water&#10;C)an atom absorbs a photon&#10;D)the electron affinity of a fluorine atom&#10;E)None of the above processes is endothermic.

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Question 48

Using the following equation for the combustion of octane,calculate the amount of moles of carbon dioxide formed from 100.0 g of octane.The molar mass of octane is 114.33 g $\mathrm { mol } ^ { - 1 }$ .The molar mass of carbon dioxide is 44.0095 g $\mathrm { mol } ^ { - 1 }$ . 2C₈H₁₈ + 25O₂ ? 16CO₂ + 18H₂O
D_rH°= -11018 kJ

A)18.18 moles
B)6.997 moles
C)14.00 moles
D)8.000 moles
E)10.93 moles

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Question 49

According to the following thermochemical equation,what mass of HF (in g)must react to produce 345 kJ of energy? Assume excess SiO₂. SiO₂(s)+ 4HF(g)→ SiF₄(g)+ 2H₂O(l) H°= -184 kJ A)42.7 g B)37.5 g C)150.g D)107 g E)173 g

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Question 50

Identify what a coffee cup calorimeter measures.&#10;A)measures &#916;H for aqueous solutions&#10;B)measures &#916;U for combustion reactions&#10;C)measures &#916;H for oxidation solutions&#10;D)measures &#916;T for hydrolysis solutions&#10;E)measures &#916;U for reduction reactions

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Question 51

How much energy is evolved during the reaction of 48.7 g of Al according to the reaction below? Assume that there is excess Fe₂O₃. Fe₂O₃(s)+ 2Al(s)→ Al₂O₃(s)+ 2Fe(s) H°= -852 kJ A)415 kJ B)207 kJ C)241 kJ D)130 kJ E)769 kJ

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Question 52

Using the following equation for the combustion of octane,calculate the amount of moles of carbon dioxide formed from 100.0 g of octane.The molar mass of octane is 114.33 g $\mathrm { mol } ^ { - 1 }$ .The molar mass of carbon dioxide is 44.0095 g $\mathrm { mol } ^ { - 1 }$ . 2C₈H₁₈ + 25O₂ ? 16CO₂ + 18H₂O
D_rH°= -11018 kJ

A)18.18 moles
B)6.997 moles
C)14.00 moles
D)8.000 moles
E)10.93 moles

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Question 53

According to the following reaction,how much energy is evolved during the reaction of 2.50 L B₂H₆ and 5.65 L Cl₂(both gases are initially at STP)? The molar mass of B₂H₆is 27.67 g $\mathrm { mol } ^ { - 1 }$ . B₂H₆(g)+ 6Cl₂(g)? 2BCl₃(g)+ 6HCl(g)
D_rH°= -1396 kJ

A)57.8 kJ
B)156 kJ
C)215 kJ
D)352 kJ
E)508 kJ

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Question 54

According to the following reaction,how much energy is evolved during the reaction of 2.50 L B₂H₆ and 5.65 L Cl₂(both gases are initially at STP)? The molar mass of B₂H₆is 27.67 g $\mathrm { mol } ^ { - 1 }$ . B₂H₆(g)+ 6Cl₂(g)? 2BCl₃(g)+ 6HCl(g)
D_rH°= -1396 kJ

A)57.8 kJ
B)156 kJ
C)215 kJ
D)352 kJ
E)508 kJ

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Question 55

Using the following equation for the combustion of octane,calculate the amount of moles of carbon dioxide formed from 100.0 g of octane.The molar mass of octane is 114.33 g $\mathrm { mol } ^ { - 1 }$ .The molar mass of carbon dioxide is 44.0095 g $\mathrm { mol } ^ { - 1 }$ . 2C₈H₁₈ + 25O₂ ? 16CO₂ + 18H₂O
D_rH°= -11018 kJ

A)18.18 moles
B)6.997 moles
C)14.00 moles
D)8.000 moles
E)10.93 moles

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Question 56

According to the following thermochemical equation,what mass of H₂O (in g)must form to produce 975 kJ of energy? SiO₂(s)+ 4HF(g)→ SiF₄(g)+ 2H₂O(l) H°= -184 kJ A)68.0 g B)102 g C)54.1 g D)191 g E)95.5 g

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Question 57

Using the following thermochemical equation,determine the amount of heat produced per kg of CO₂ formed during the combustion of benzene (C₆H₆). 2C₆H₆(l)+ 15O₂(g)→ 12CO₂(g)+ 6H₂O(g) H°= -6278 kJ A)1.43× 10⁵ kJ (kg CO₂)^-1 B)2.30× 10⁴ kJ (kg CO₂)^-1 C)4.34× 10⁴ kJ (kg CO₂)^-1 D)1.19 × 10⁴ kJ (kg CO₂)^-1 E)8.40× 10⁵ kJ (kg CO₂)^-1

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Question 58

Which of the following processes is exothermic?&#10;A)the formation of dew in the morning&#10;B)the melting of ice&#10;C)the chemical reaction in a &#34;cold pack&#34; often used to treat injuries&#10;D)the vaporization of water&#10;E)None of the above is exothermic.

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Question 59

How much energy is evolved during the formation of 98.7 g of Fe according to the reaction below? Fe₂O₃(s)+ 2Al(s)→ Al₂O₃(s)+ 2Fe(s) H°= -852 kJ A)753 kJ B)1.51 × 10³ kJ C)4.20 × 10³ kJ D)482 kJ E)241 kJ

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Question 60

Using the following thermochemical equation,determine the amount of heat produced from the combustion of 24.3 g benzene (C₆H₆).The molar mass of benzene is 78.11 g $\mathrm { mol } ^ { - 1 }$ 2C₆H₆(l)+ 15O₂(g)? 12CO₂(g)+ 6H₂O(g) D_rH° = -6278 kJ A)3910 kJ C₆H₆ B)1950 kJ C₆H₆ C)977 kJ C₆H₆ D)40.1 kJ C₆H₆ E)0.302 kJ C₆H₆

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Question 61

Calculate the final temperature of 68.4 g of molecular hydrogen (specific heat capacity = 14.304 J g^-1 °C^-1)initially at 8.24 °C that releases 25.3 kJ of energy into the surroundings. A)34.1 °C B)17.6 °C C)-34.1 °C D)-17.6 °C E)-8.70 °C

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Question 62

An unknown metal alloy,mass = 36.1 g,has a temperature change of 31.6 to 24.8 °C after a heat transfer of -103.0 J.Calculate the specific heat capacity of the alloy. A)0.500 J g^-1 °C^-1 B)0.384 J g^-1 °C^-1 C)0.579 J g^-1 °C^-1 D)0.420 J g^-1 °C^-1 E)1.85 J g^-1 °C^-1

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Question 63

A piece of iron (mass = 25.0 g)at 398 K is placed in a styrofoam coffee cup containing 25.0 mL of water at 298 K.Assuming that no heat is lost to the cup or the surroundings,what will the final temperature of the water be? The specific heat capacity of iron = 0.449 J $g ^ { - 1 }$ °C^-1 and water = 4.184 J $g ^ { - 1 }$ °C^-1. A)348 K B)308 K C)287 K D)325 K E)388 K

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Question 64

Calculate the heat transfer (J)when 3.15 g of platinum (specific heat capacity = 0.133 J g^-1 °C^-1)at 86.1 °C cools to room temperature,24.3 °C. A)-26 J B)26 J C)-60 J D)60 J E)-17 J

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Deck 6: Thermochemistry