1.3 Bonding

Question 1

Where does ionic bonding occur

Answer 1

non-metal and metal

Question 2

Describe how ionic bonding works

Answer 2

Electrons transferred from the metal to the non metal, to achieve full outer shells

Question 3

How is a giant ionic lattice formed through ionic bonding

Answer 3

electrons are transferred, creating charged particles called ions,
oppositely charged ions attract through electrostatic forces of attraction,
forming giant ionic lattices

Question 4

Give an example of an ionic lattice

Answer 4

Sodium Chloride

Question 5

State the formulas for:
1) Sulfate ion
2) Hydroxide ion
3) Nitrate ion
4) Carbonate ion
5) Ammonium Ion

Answer 5

1. SO4(2-)g
2. OH(-)
3. NO3(-)
4. CO3(2-)
5. NH4(+)

Question 6

Where does covalent bonding occur

Answer 6

Between non-metal and non-metal

Question 7

How does covalent bonding occur

Answer 7

Electrons are shared betwen the two outer shells in order to achieve a full outer shell of electrons.

Question 8

What is a dative/ coordinate covalent bond

Answer 8

When both of the electrons in the shared pair are supplied from a single atom

Question 9

Give an example of a dative bond

Answer 9

NH4(+)

NH3 has a lone pair, forms a dative bond with H+

Question 10

How does metallic bonding occur

Answer 10

Lattice of positively charged ions, surrounded by a sea of delocalised electrons, forming strong electrostatic force of attraction between oppositely charged particles

Question 11

How does charge on the positive ion affect the attractive force

Answer 11

Greater charge on positive ions, stronger attraction as more electrons are released into the sea

Question 12

How does size affect attraction

Answer 12

Larger size, weaker attraction because of greater atomic radius

Question 13

Name the four main types of
crystal structures

Answer 13

1. Ionic
2. metallic
3. simple molecular
4. macromolecular

Question 14

Explain melting and boiling point in ionic crystal structures

Answer 14

• High Melting / Boiling point
• strong electrostatic forces of attraction
• holding the ionic lattice together
• require alot of energy to overcome

Question 15

Explain electrical conductivity in ionic substances

Answer 15

• Can conduct in molten / solution
• ions are separated and no longer held in lattice
• free to move carry a flow of charge
• and therefore electrical current

Question 16

Why are ionic substances brittle

(Hard but liable to break easily)

Answer 16

Layers of alternating charges distorted, like charges repel, breaking the lattice into fragments

Question 17

Explain conductivity in metallic structures

Answer 17

• Good conductors
• sea of delocalised electrons
• carries charge flow
• allowing current to pass through

Question 18

Why are metals malleable

Answer 18

• Layers of positive ions can slide over each other
• delocalised electrons prevent fragmentation

Question 19

What is the only metal that is liquid at room temperature

Answer 19

Mercury

Question 20

Explain melting points of metallic structures

Answer 20

• High melting points
• strong electrostatic forces between positive ions and delocalised electrons
• require alot of energy to overcome

Question 21

Describe a simple molecular structure

Answer 21

Consisting of covalently bonded molecules
Held together by weak Van Der Waals forces

Question 22

Give an example of a simple molecular structure

Answer 22

Iodine

Question 23

Explain the melting / boiling point of simple mplecular structures

Answer 23

• Low melting / boiling point
• weak van der waals forces
• easy to overcome

Question 24

Why are simple molecular substances poor conductors

Answer 24

Their structure contains no charged particles to carry charge flow

Question 25

Describe macromolecular substances

Answer 25

Macromolecular structure is covalently bonded into a giant lattice structure

Question 26

Give 2 examples of macromolecular substances made from carbon

Answer 26

Diamond and Carbon

Question 27

Why is diamond one of the strongest materials known

Answer 27

Each of the carbon atoms is bonded to further four carbon attoms

Question 28

Why can graphite conduct electricity

Answer 28

• Each carbon is bonded to three other carbons in falt sheets
• Free electrons can move between layers
• Conducting electricity

Question 29

How much distortion does one lone pair of electrons cause

Answer 29

2.5(degrees)

Question 30

Give Name and bond angle

• 2 bonding pairs
• 0 lone pairs

Answer 30

Linear shape
Bond angle 180°

Question 31

Give Name and bond angle

• 2 Bonding pairs
• 2 Lone pairs

Answer 31

V - Shaped
Bond angle 104.5°

Question 32

Give name and bond angle

• 3 Bonding pairs
• 0 Lone pairs

Answer 32

Trigonal Planar
Bond angle 120°

Question 33

Give name and bond angle

• 3 bonding pairs
• 1 Lone pair

Answer 33

Triangular Pyramid
107°

Question 34

Give name and bond angle

• 4 Bonding pairs
• 0 Lone pairs

Answer 34

Tetrahedral
109.5°

Question 35

Give name and bond angle

• 5 Bonding pairs
• 0 Lone pairs

Answer 35

Trigonal Bipyramid
90° and 120°

Question 36

Give name and bond angle

• 6 Bonding pairs
• 0 Lone pairs

Answer 36

Octahedral
90°

Question 37

Define electronegativity

Answer 37

The ability of an atom to attractive a pair of electrons with negative charge

Question 38

Explain how electronegativity changes across a period

Answer 38

• Elecgronegativity increases along a period
• Atomic radius decreases

Question 39

Explain how electronegativity changes down a group

Answer 39

• Electronegativity decreases down a group
• Shielding increases

Question 40

When does a polar bond form

Answer 40

When two atoms have different electrongetaivities, and one atom draws electrons closer to itself, and away from the other producing partial charges

Question 41

Give an example of a polar molecule

Answer 41

• Water
• Hydrogen Fluoride

Question 42

What can polar molecules with permenant dipoles form

Answer 42

Lattice of molecules

Similar to an ionic lattice

Question 43

Name the three types of intermolecular forces

Answer 43

1. Van Der Waals
2. Permenant Dipoles
3. Hydrogen Bonding

Question 44

What does the strength of Van der Waals depend on

Answer 44

Mr of the molecule and its shape

Question 45

Explain the link between size of molecule and Van der waals

Answer 45

The larger the Mr
Stronger Intermolecular forces
More opportunity for Van der Waals

Question 46

Where do Hydrogen Bonds form

Answer 46

• Hydrogen and Nitrogen
• Hydrogen and Oxygen
• Hydrogen and Fluorine

(between the most electronegative elements)

Question 47

How do hydrogen bonds form

Answer 47

The Lone pair on the atom forms a bond with the hydrogen, shown with a dotted line

Question 48

What are the melting points like with hydrogen bonding

Answer 48

High melting / boilings
strongest intramolecular force
alot of energy to overcome