Chemical Bonding (College Board AP® Chemistry): Exam Questions

55 mins21 questions
1a
1 point

Define electronegativity.

1b
1 point

Explain how electronegativity changes across a period.

1c
2 points

P-Cl and S-Cl are both polar bonds. The electronegativity values for each element are given in the following table.

Element

Electronegativity

phosphorus

2.1

sulfur

2.5

chlorine

3.0

Identify which bond is more polar. Justify your answer.

2a
2 points

Describe how sodium chloride forms in terms of electron transfer.

2b
1 point

Explain why sodium chloride has a higher melting point than carbon dioxide.

2c
1 point

Explain how the difference in electronegativity between atoms determines whether a bond is ionic or covalent.

1a
2 points

The table below shows the bonds found in different molecules.

Bond

H-H

O=O

Nidentical toN

Identify which bond is the shortest. Justify your answer in terms of bond order.

1b
1 point

The bond energy of a C-H bond in methane (CH₄) is 412 kJ/mol, while the bond energy of an H-F bond in hydrogen fluoride (HF) is 565 kJ/mol.

i) Explain why the H-F bond has a higher bond energy than the C-H bond in terms of atomic structure.

ii) Predict whether the bond length in H-F is longer or shorter than in C-H. Justify your answer.

2a
1 point

Compound X has the molecular formula C4H8O2 and exists as a white crystalline solid at room temperature. Compound X has a melting point of 135  oC and dissolves well in water. The Lewis diagram of a molecule of compound X is shown below.

Lewis structure diagram of butanoic acid.

Explain the type of bonding present in compound X.

2b
2 points

Is the C=O bond in compound X nonpolar covalent, polar covalent, or ionic? Justify your answer.

2c
1 point

Predict whether compound X is polar or nonpolar. Justify your answer.

2d
2 points

State the approximate bond angle around the carbon atom in the –COOH group. Explain your answer in terms of electron domain geometry.

2e
2 points

Identify the strongest intermolecular force between molecules of compound X. Explain how this affects the melting point.

2f
2 points

Explain why compound X dissolves readily in water.

3a
1 point

Two substances, C2H6 (ethane) and CH3OH (methanol), are both gases at room temperature but exhibit very different physical properties.

Based on electronegativity differences, classify the bond between carbon and hydrogen atoms in C2H6 as nonpolar covalent, polar covalent, or ionic. Justify your answer.

3b
2 points

Identify the strongest type of intermolecular force between molecules of:

i) C2H6

ii) CH3 OH

3c
1 point

Draw a Lewis diagram for a single CH3OH molecule.

3d
2 points

Draw a diagram showing an intermolecular interaction between two methanol (CH3OH) molecules. Clearly indicate the interaction and partial charges on the relevant atoms.

3e
2 points

Explain why the boiling point of CH3OH is significantly higher than that of C2H6. Your answer should refer to the differences in intermolecular forces between the two substances.

3f
2 points

Methanol is highly soluble in water, whereas ethane is nearly insoluble. Explain this difference in solubility in terms of molecular polarity and interactions with water.

1a
1 point

What is meant by a dipole moment?

1b
1 point

Carbon dioxide and water both contain polar bonds.

Identify which molecule has a net dipole moment. Justify your answer in terms of molecular geometry.

1c
1 point

The dipole moment of NH₃ is greater than that of NF₃ despite both having a trigonal pyramidal shape.

(i) Explain how the electronegativity of fluorine compared to hydrogen affects the dipole moment of NF₃ and NH₃.

(ii) Explain why the dipole moment of NH₃ is greater than that of NF₃ in terms of electron distribution and molecular polarity.

2a
2 points

Compare the bonding in metals and ionic solids in terms of electron behavior and the forces that hold the structure together.

2b
2 points

(i) Explain why metals are malleable, whereas ionic solids are brittle, in terms of atomic structure and bonding.

(ii) Describe how the application of an external force affects the structure of a metal compared to an ionic solid.

3a
1 point

State Coulomb's law and identify its variables.

3b
1 point

Identify which compound, potassium bromide or potassium sulfide, has the stronger electrostatic attraction. Justify your answer in terms of Coulomb’s Law.

3c
2 points

The experimental lattice energy of NaCl deviates from Coulomb’s Law predictions.

(i) Explain how polarizability affects the lattice energy of NaCl.

(ii) Explain how partial covalent character contributes to this deviation.