Structure & Bonding (Double) quiz

1. Explain, in terms of its structure, why graphite can conduct electricity.

Graphite has delocalised protons which can move

Graphite has layers which can easily slide over each other

Graphite has positive ions which can move

Graphite has delocalised electrons which can move

Question 1 of 12

2. Explain how the atoms are held together in a hydrogen bromide molecule

A pair of electrons is transferred from bromine to hydrogen

A shared pair of electrons is attracted to 2 nuclei

A shared pair of electrons is attracted to one nucleus

A single electron is transferred from bromine to hydrogen

Question 2 of 12

3. Explain the term ionic bond

An ionic bond is the strong electrostatic attraction between a shared pair of electrons and two nuclei

An ionic bond is the strong electrostatic attraction between similarly charged ions

An ionic bond is the strong electrostatic attraction between oppositely charged ions

An ionic bond is the strong magnetic attraction between oppositely charged ions

Question 3 of 12

4. A substance is found not to conduct electricity even when molten. What type of bonding does the substance have?

Covalent

Ionic

Metallic

Covalent or ionic

Question 4 of 12

5. Describe the structure of an ionic compound, e.g NaCl

A giant structure held together by the attraction between similarly charged ions

A giant structure held together by the attraction between oppositely charged ions

A giant structure held together by the attraction between positive metal ions and a sea of delocalised electrons

A giant structure held together by intermolecular forces

Question 5 of 12

6. Why is the boiling point of a larger molecule higher than that of a smaller molecule?

Larger molecules have fewer attractions between them. These take less energy to overcome.

Larger molecules have more attractions between them. These take more energy to overcome.

Larger molecules have fewer attractions between them. These take more energy to overcome.

Larger molecules have more attractions between them. These take less energy to overcome.

Question 6 of 12

7. Describe the formation of a covalent bond

The sharing of a single electron between two nuclei

The transfer of electrons from one atom to another

The sharing of a pair of electrons between two nuclei

The electrostatic attraction between positive metal ions and a sea of delocalised electrons

Question 7 of 12

8. How can atoms get a full outer shell?

Only transfer (ionic) of electrons

Either the transfer (covalent) or sharing (ionic) of electrons

Conversion of electrons to protons

Either the transfer (ionic) or sharing (covalent) of electrons

Question 8 of 12

9. In the dot and cross diagram of the outer electrons showing the covalent bonding in a molecule of oxygen (O₂), how many electrons should be shown in areas 1, 2 and 3?

There should be four electrons in area 1, two electrons in area 2, and four electrons in area 3

There should be four electrons in area 1, four electrons in area 2, and four electrons in area 3

There should be three electrons in area 1, two electrons in area 2, and three electrons in area 3

There should be two electrons in area 1, six electrons in area 2, and two electrons in area 3

Question 9 of 12

10. Do ionic substances conduct electricity?

Yes, ionic substances always conduct electricity

Only when molten

No, ionic substances never conduct electricity

Not when solid, but they do when either molten or in solution

Question 10 of 12

11. Explain why carbon dioxide gas, CO₂, is a gas at room temperature

Carbon dioxide has a giant covalent structure with many weak covalent bonds which require little energy to overcome

Carbon dioxide has a giant covalent structure with many strong covalent bonds which require a lot of energy to overcome

Carbon dioxide has a simple molecular structure with weak intermolecular forces that require little energy to overcome

Carbon dioxide has a simple molecular structure with strong intermolecular forces that require a lot of energy to overcome

Question 11 of 12

12. Explain why Silica, SiO₂ is a solid with a high melting point

Silica has a simple molecular structure with strong intermolecular forces that require a lot of energy to overcome

Silica has a giant metallic structure with weak forces of attraction between layers

Silica has a simple molecular structure with weak intermolecular forces that require little energy to overcome

Silica has a giant covalent structure with many strong covalent bonds that need a lot of energy to break

Question 12 of 12

Structure & Bonding (Double) quiz

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