CHEM 125 Jeopardy 1 Jeopardy Template

Mystery

Enthalpy, Entropy, Spontaneity

Solubility, Salts, Covalent Compounds

Colligative Properties

Gibbs Free Energy/ Equilibrium Constant

100

Which intermolecular forces would be present between an acetate ion and cyclohexane? Select all the apply.

a) Hydrogen bonding

b) dipole-dipole

c) dipole-induced dipole

d) London Dispersion forces

e) ion-induced dipole

c,d,e

100

Classify a process for which ΔS of the system is negative.

a) Spontaneous

b) reversible

c) impossible

d) not enough info

100

Which will favor solubility of covalent compounds?

a) stronger solvent-solvent IMFs

b) stronger solvent-solute IMFs

c) stronger solute-solute IMFs

b) stronger solvent-solute IMFs

100

What is the value of the can't Hoff factor i for potassium carbonate when it dissolves in water?

a) 1

b) 2

c) 3

4) 4

c) 3

200

Which of the following will form an ideal solution?

a) C₂H₅OH and water

b) HNO₃ and water

c) CHCl₃ and CH₃COCH₃

d) C₆H₆ and C₆H₅CH₃

The bonding interactions among the molecules will be the same strength and type before and after mixing (

200

A reaction has Δ_rG^∘ = -2.68 x 10⁴ kJ/mol. How can we best describe this reaction?

a) spontaneous

b) non-spontaneous

c) at equilibrium

d) unknown

Remember that the degree symbol means standard free energy, which only tells us if the reaction favors products or reactants, not whether it is spontaneous or not.

200

An insoluble salt has a hydration enthalpy greater in magnitude than its lattice enthalpy. What are the signs of standard Gibbs energy, enthalpy and entropy of solution?

ΔG°= +

ΔH°= -

ΔS°= -

200

What is the freezing point of a solution in degrees C made by dissolving 24.0g of NaCl in 800mL of water?

-1.91 degrees C

200

Write the equilibrium expression for the following reaction:

HF_(aq) + OH^-_(aq) ⇌ F^-_(aq) + H₂O_(l)

K= [F^-] / [HF][OH^-]

300

We mix two solvents with identical IMFs types and strengths. What is the value of ΔS of the system and ΔS of the surroundings (positive, negative, zero, or not enough info)?

ΔS universe > 0 (mixing is spontaneous)

ΔH = 0

therefore:

ΔS system > 0

ΔS surroundings = 0

300

A compound boils at 87^∘C and has a heat of vaporization of 59 kJ/mol. Calculate its Δ_vapS^∘in kJ/mol K.

Δ_vapS^∘= 59/332 = 0.178 J/mol K = 178 kJ/mol K

300

Which molecule would you predict to be the most soluble in water?

a) chloroethane

b) ethanol

c) ethanal

d) ethylene glycol

300

Which aqueous solution would be predicted to have the lowest melting point?
a. 0.20 M glucose
b. 0.10 M NaNO₃
c. 0.10 M MgO₂
d. 0.05 M Na₃PO₄

c) 0.10 M MgO₂

300

After finishing the Gibb's Free Energy lab, you graph your data. On your graph, you have (1/T) on the x-axis (reciprocal Kelvins) and lnK_eq on your y-axis. The equation of the linear fit is y = (8.48 x 10³)x -579. Calculate the value of Δ_rS^∘ and Δ_rH^∘. Don't forget units!

Δ_rH^∘= -70.5 kJ/mol

Δ_rS^∘= -4813 J/mol K

400

We mix water vapor at 150 degrees C with liquid water at 100 degrees C. Which numbers do we need to calculate the final temperature of the mixture (Select all that apply)?

a) specific heat of liquid water

b) specific heat of water vapor

c) heat of vaporization

d) mass of liquid

e) mass of vapor

b,c,d,e

400

Which salt will most likely have a negative value for Δ_solutionS^∘?

a) NaCl

b) CaCl₂

c) MgO

d) Li₂S

c) MgO (small radius, big charge)

400

Which of these salts would be most likely to have a negative value for Δ_solnS^∘?

a) CaCl₂

b) KCl

c) CaO

d) BaS

c) CaO

Higher charge density --> more negative Δ_solnS^∘

Therefore you want big charge, small size

400

An aqueous solution of CaCl₂ boils at 109.3 degrees C. At what temperature will it freeze? K_b(H₂O) = 0.512 deg/m. K_f(H₂O) = 1.86 deg/m.

-33.8 degrees C

500

You combine a 106mL solution of 1.75M HClO₄ and a 118mL solution of 1.25M Ca(OH)₂, both with initial temperatures of 25 degrees C. The change in enthalpy of the reaction is -57.3kJ/mol. To this combined solution, you add 20g of ice at an initial temperature of -50 degrees C. What is the final temperature of the solution?

Tf = 24.8 degrees C

500

Consider Δ_latticeS^∘, Δ_solnS^∘, Δ_hydrationS^∘, and Δ_latticeH^∘, Δ_hydrationH^∘, and Δ_solutionH^∘for an unknown salt. What are the predicted signs for each of these values (positive, negative, or unknown)?

Δ_latticeS^∘ : positive

Δ_solnS^∘ : unknown

Δ_hydrationS^∘: negative

Δ_latticeH^∘ : positive

Δ_hydrationH^∘: negative

Δ_solutionH^∘: unknown

500

1. Which molecule would be predicted to have the largest value for Δ_vapH^∘?

2. Which would be the most soluble in H₂O?

3. Which would be the most soluble in benzene?

a) cyclopentane

b) cyclopentanol

c) cyclopentanone

1. b) cyclopentanol

2. b) cyclopentanol

3. a) cyclopentane

500

A solution of 35.7 g of an unknown organic compound in 220.0g of chloroform has a boiling point of 64.5 °C. What is the molar mass of this compound? The normal boiling point of chloroform is 61.17°C and the K_b=3.80 deg/m.

1.8 × 10² g/mol