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AP Chemistry : Thermochemistry and Kinetics

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Example Questions

Example Question #7 : Enthalpy

$N_{2(g)}$ $\Delta H_f=0 kJ$

$O_{2(g)}$ $\Delta H_f=0 kJ$

$\Delta H_f=90kJ$

What is the enthalpy of the following reaction?

$N_{2(g)}+O_{2(g)}\rightarrow 2NO$

Possible Answers:

$180\frac{kJ}{mol}$

$45\frac{kJ}{mol}$

$15\frac{kJ}{mol}$

$0\frac{kJ}{mol}$

$90\frac{kJ}{mol}$

Correct answer:

$180\frac{kJ}{mol}$

Explanation:

The change in enthalpy is calculated by:

$\Delta H_{products} - \Delta H_{reactants}$

When $\Delta H$ cannot be measured, it can be calculated from known enthalpies of formation.

$N_{2(g)}$ $\Delta H_f=0 kJ$

$O_{2(g)}$ $\Delta H_f=0 kJ$

$\Delta H_f=90kJ$

It is important to first balance the reaction before performing calculations. The coefficients are important in determining the change in enthalpy of a reaction. For this particular reaction, since there are two moles of product, the enthalpy of formation for must be multiplied by two.

$N_{2(g)}+O_{2(g)}\rightarrow 2NO$

$\Delta H_{rxn}=2(\Delta H_{NO})-\Delta H_{N_{2(g)}}-\Delta H_{O_{2(g)}}$

$\Delta H_{rxn}=2(90kJ)-0kJ-0kJ$

$\Delta H_{rxn}=180\frac{kJ}{mol}$

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Example Question #8 : Enthalpy

$NO_{(g)}$ $\Delta H_f=90kJ$

$O_{2(g)}$ $\Delta H_f=0kJ$

$NO_{2}$ $\Delta H_f=33kJ$

What is the change in enthalpy for the following reaction?

$NO_{(g)}+O_{2(g)} \rightarrow NO_2$

Possible Answers:

$-24\frac{kJ}{mol}$

$-114\frac{kJ}{mol}$

$-147\frac{kJ}{mol}$

$123\frac{kJ}{mol}$

$-57\frac{kJ}{mol}$

Correct answer:

$-114\frac{kJ}{mol}$

Explanation:

The change in enthalpy is calculated by:

$\Delta H_{products} - \Delta H_{reactants}$

When $\Delta H$ cannot be measured, it can be calculated from known enthalpies of formation.

$NO_{(g)}$ $\Delta H_f=90kJ$

$O_{2(g)}$ $\Delta H_f=0kJ$

$NO_{2}$ $\Delta H_f=33kJ$

It is important to first balance the reaction before performing calculations. The coefficients are important in determining the change in enthalpy of a reaction.

$2NO_{(g)}+O_{2(g)}\rightarrow 2NO_{2}$

$\Delta H_{rxn}=2(\Delta H_{NO_2})-2(\Delta H_{NO_{(g)}})-\Delta H_{O_{2(g)}}$

$\Delta H_{rxn}=2(33kJ)-2(90kJ)-0kJ$

$\Delta H_{rxn}=-114\frac{kJ}{mol}$

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Example Question #9 : Enthalpy

$C_4H_{10}$ $\Delta H_f=-126kJ$

O_2 $\Delta H_f=0kJ$

CO_2 $\Delta H_f=-394kJ$

H_2O $\Delta H_f=-286kJ$

What is the change in enthalpy for the following reaction?

$C_4H_{10}+O_2\rightarrow CO_2+H_2O$

Possible Answers:

$+1416\frac{kJ}{mol}$

$-554\frac{kJ}{mol}$

$-500\frac{kJ}{mol}$

$-5760\frac{kJ}{mol}$

$-145\frac{kJ}{mol}$

Correct answer:

$-5760\frac{kJ}{mol}$

Explanation:

The change in enthalpy is calculated by:

$\Delta H_{products} - \Delta H_{reactants}$

When $\Delta H$ cannot be measured, it can be calculated from known enthalpies of formation.

$C_4H_{10}$ $\Delta H_f=-126kJ$

O_2 $\Delta H_f=0kJ$

CO_2 $\Delta H_f=-394kJ$

H_2O $\Delta H_f=-286kJ$

It is important to first balance the reaction before performing calculations. The coefficients are important in determining the change in enthalpy of a reaction.

$2C_4H_{10}+13O_2\rightarrow 8CO_2+10H_2O$

$\Delta H_{rxn}=8(\Delta H_{CO_2})+10(\Delta H_{H_2O})-2(\Delta H_{C_4H_{10}})-13(\Delta H_{O_2})$

$\Delta H_{rxn}=8(-394kJ)+10(-286kJ)-2(-126kJ)-13(0kJ)$

$\Delta H_{rxn}=-5760\frac{kJ}{mol}$

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Example Question #1 : Enthalpy

Consider the following combustion reaction:

$C_{3}H_{8}_{(g)} + 5O_{2}_{(g)} \rightarrow 3CO_{2}_{(g)} + 4H_{2}O_{(g)}$

The following list is the enthalpies of formation for the compounds:

$\Delta H_{C_{3}H_{8}} = -103.85\frac{kJ}{mol}$

$\Delta H_{CO_{2}} = -393.5\frac{kJ}{mol}$

$\Delta H_{H_{2}O} = -241.82\frac{kJ}{mol}$

If one mole of propane is burned, what is the enthalpy of the reaction?

Possible Answers:

-2044 kJ

-739kJ

-2148kJ

-531kJ

Correct answer:

-2044 kJ

Explanation:

Since we have the enthalpies of formation, we can find the enthalpy of the reaction using the following equation:

$\Delta H_{reaction} = \Delta H_{products} - \Delta H_{reactants}$

We will need to use the coefficients from the balanced equation to calculate the enthalpy.

$C_{3}H_{8}_{(g)} + 5O_{2}_{(g)} \rightarrow 3CO_{2}_{(g)} + 4H_{2}O_{(g)}$

Since oxygen gas is elemental, it does not have an enthalpy of formation, and is omitted from the equation.

$\Delta H_{reaction}=3(\Delta H_{CO_2})+4(\Delta H_{H_2O})-\Delta H_{C_3H_8}$

$\Delta H_{reaction}=3(-393.5\frac{kJ}{mol})+4(-241.82\frac{kJ}{mol})-(-103.85\frac{kJ}{mol})$

$\Delta H_{reaction}=-2044\frac{kJ}{mol}$

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Example Question #61 : Thermochemistry And Kinetics

Which of the following is a true statement regarding the energy involved in the formation of Methane, CH₄, from graphite C_(s)and H_2(g)?

Possible Answers:

Energy will be released, then consumed

Energy will be consumed

None of the other answers

Energy will be released

Energy will be consumed, then released

Correct answer:

Energy will be consumed, then released

Explanation:

This problem requires a knowledge of the energy involved when bonds are broken versus when bonds are formed. Energy is released when bonds are formed, and energy is consumed when bonds are broken. Here, methane is being formed from C and H_2.Since the carbon source, graphite, is monoatomic the carbon will be involved only in the formation of C–H bonds on it's way to forming methane. The H however exists as H₂ so bonds will need to be broken to allow for C–H bonds to form. So first energy is consumed to break the H–H bonds, it is then released when the C–H bonds form.

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Example Question #62 : Thermochemistry And Kinetics

H2O ice melts to liquid H2O [Heat is added]

Which of the following is correct?

I. Δ H is positive

II. ΔS is positive

III. ΔH is negative

IV. ΔS is negative

Possible Answers:

I and IV

I only

II only

I & II

I and III

Correct answer:

I & II

Explanation:

When heat is added, enthalpy increases, ΔH refers to enthalpy

ΔS refers to entropy, which is disorder; disorder increases as it moves from solid to liquid to gas state.

As ice goes to liquid water, entropy increases

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Example Question #11 : Enthalpy

Which of the following equations is correct for finding change in enthalpy?

Possible Answers:

$\Delta H _{products} - \Delta H _{reactants}$

$\Delta H _{products} * \Delta H _{reactants}$

$\frac{\Delta H _{products}}{\Delta H _{reactants}}$

$\Delta H _{reactants}-\Delta H _{products}$

$\Delta H _{products} + \Delta H _{reactants}$

Correct answer:

$\Delta H _{products} - \Delta H _{reactants}$

Explanation:

The change in enthalpy of a reaction is determined by the amount of heat gained when the products bonds form, versus the amount of heat lost to break the bonds in the reactants. The correct formula for the enthalpy of reaction is the difference between the enthalpy of the products and that of the reactants:

$\Delta H _{products} - \Delta H _{reactants}$

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Example Question #14 : Enthalpy

$S_{(s)} + O_{2(g)} \rightarrow SO_{2(g)}$ $\Delta H = x$

$S_{(s)} + \frac{3}{2}O_{2(g)} \rightarrow SO_{3(g)}$ $\Delta H = y$

Based on the given reactions, what is the enthalpy change in the following reaction?

$2SO_{2(g)} + O_{2(g)} \rightarrow 2SO_{3(g)}$

Possible Answers:

2x - y

y-x

x-y

2x-2y

2y-2x

Correct answer:

2y-2x

Explanation:

The reactions given show the heats of formation of all the reactants and products, and we know the heat of formation of $O_{2}$ is zero because it is a pure element. Formation of the product, $SO_{3}$ gives us . For the reactants, $SO_{2}$ gives us plus for $O_{2}$ . Recall that the overall reaction's change in enthalpy is:

$\Delta H_{reaction}=\Delta H_{products}-\Delta H_{reactants}$

Thus for this overall reaction:

$\Delta H_{reaction} = 2y-2x$

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Example Question #1 : Entropy

Which of the following does not represent an increase in entropy?

Possible Answers:

Condensation of water on glass

NaCl dissolving in water

Melting of mercury

Boiling water

Sublimation of CO₂

Correct answer:

Condensation of water on glass

Explanation:

Of phases, from greatest to least entropy is gas>liquid>solid. Dissolving a salt into solution is an increase in entropy because the salt has greater space to move. The only decrease in entropy is condensation of water on glass (gas to liquid)

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Example Question #2 : Entropy

Which of the following reactions represents a negative change in entropy?

Possible Answers:

Water heating

None of these represent a negative change in entropy

Sublimation of dry ice

Ice melting

Salt dissolving

Correct answer:

None of these represent a negative change in entropy

Explanation:

Entropy for phases are Gas>Liquid>Solid. A salt dissolving into solution has a positive entropy change (the solution becomes more chaotic). Therefore all of the listed reactions are a positive change in entropy, making E the correct answer.

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AP Chemistry : Thermochemistry and Kinetics

Study concepts, example questions & explanations for AP Chemistry

All AP Chemistry Resources

Example Questions

Example Question #7 : Enthalpy

Example Question #8 : Enthalpy

Example Question #9 : Enthalpy

Example Question #1 : Enthalpy

Example Question #61 : Thermochemistry And Kinetics

Example Question #62 : Thermochemistry And Kinetics

Example Question #11 : Enthalpy

Example Question #14 : Enthalpy

Example Question #1 : Entropy

Example Question #2 : Entropy

All AP Chemistry Resources

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