TOPIC 2 - Chemical bonding and structure

Question 1

What is the formula and charge of the nitrate ion?

Answer 1

NO₃^-

Question 2

What is the formula and charge of the ammonium ion?

Answer 2

NH₄⁺

Question 3

What is the formula and charge of the sulfate ion?

Answer 3

SO₄^2-

Question 4

What is the formula and charge of the carbonate ion?

Answer 4

CO₃^2-

Question 5

Why do ionic substances dissolve in water?

Answer 5

Water is a polar molecules. The partially positive hydrogens and partially positive oxygens in water are atracted to the oppositely charged ions and so will break the lattice.

Question 6

Why do ionic compounds have high mpt/bpt?

Answer 6

Many, strong electrostatic forces of attraction between oppositely charged ions require lots of energy to break down.

Question 7

Why are ionic compounds brittle?

Answer 7

When struck, the layers of ions slide past each other and oppositely charged ions are forced together. The ions repel and the structure breaks appart.

Question 8

How does the size of charge in ionic compounds affects the bpt/mpt?

Answer 8

Bigger charge, so bigger charge density and so stronger electrostatic forces of attraction and so more energy is required to overcome those forces and so have a higher bpt/mpt.

Question 9

How does the size of the ion affect the mpt/bpt in an ionic substance?

Answer 9

Smaller ions, ions are closer and so there’s a bigger charge density, therefore there are stronger electrostatic forces of attraction and so more energy is required to overcome them and so higher bpt/mpt.

Question 10

What are isoelectronic ions?

Answer 10

Different atoms with the same number of electrons.

Question 11

How does the radius of isoelectronic ions vary as atomic number increases?

Answer 11

Decreases.

Question 12

What evidence is there for charged ions?

Answer 12

When you place GREEN Copper(II)Chromate(VI) on a wet filter paper and apply a current, positive Cu2+ ions (BLUE) are seen moving towards -ve cathode while negative Cr₂O₄^2- ions (YELLOW) move towards the anode.

Question 13

How does electron density affect bond length and bond enthalpy?

Answer 13

Higher the electron density, the shorter the bond length and so higher bond enthalpy.

Question 14

What is the general rule for calculating the bond angles in molecules with lone pairs of electrons?

Answer 14

Subtract 2.5 from the basic shape for every lone pair. To find the basic structure, assume the lone pairs are bonding pairs.

Question 15

What is the molecular shape for 2 bond pairs and 0 lone pairs?

Answer 15

Linear. i.e. BeCl₂

Question 16

What is the molecular shape for 3 bond pairs and 0 lone pairs?

Answer 16

Trigonal Planar. i.e. BF₃

Question 17

What is the molecular shape for 4 bond pairs and 0 lone pairs?

Answer 17

Tetrahedral. i.e. CH4

Question 18

What is the molecular shape for 5 bond pairs and 0 lone pairs?

Answer 18

Trigonal Bipyramidal. i.e. PCl₅

Question 19

What is the molecular shape for 6 bond pairs and 0 lone pairs?

Answer 19

Octahedral. i.e. SF₆

Question 20

What is the molecular shape for 2 bond pairs and 1 lone pair?

Answer 20

Trigonal pyramidal. i.e. NH₃

Question 21

What is the molecular shape for 2 bond pairs and 2 lone pairs?

Answer 21

Bent. i.e. H₂O

Question 22

What is the molecular shape for 3 bond pairs and 2 lone pairs?

Answer 22

Distorted T. i.e. ClF₃

Question 23

What is the molecular shape for 4 bond pairs and 1 lone pair?

Answer 23

Seesaw. i.e. SF4

Question 24

What is the molecular shape for 5 bond pairs and 1 lone pair?

Answer 24

Square pyramidal. i.e. IF₅

Question 25

What is the molecular shape for 4 bond pairs and 2 lone pairs?

Answer 25

Square planar. i.e. XeF₄

Question 26

What is the bonding structure of graphite?

Answer 26

Layers in which each carbon is bonded 3 times. The 4th electron is delocalised. The delocalised electrons keep the layers together.

Question 27

What allows layers in graphite to slide easily?

Answer 27

There are weak forces of attraction between layers.

Question 28

What allows graphite to have low density?

Answer 28

Layers are far apart.

Question 29

What makes graphite have a high bpt/mpt?

Answer 29

Lots of strong covalent bond in the macromolecular structure.

Question 30

What makes graphite insoluble?

Answer 30

Strong covalent bonds are difficult to break.

Question 31

What allows graphite to conduct electricity?

Answer 31

Delocalised electrons between layers are able to move.

Question 32

What is the bonding structure of diamond?

Answer 32

Giant macromolecular structure where each carbon is bonded 4 times. (similar to SiO2)

Question 33

What makes diamond a heat conductor?

Answer 33

Highly packed, rigid arrangement of atoms.

Question 34

What makes diamond insoluble?

Answer 34

Very strong covalent bonds which are difficult to overcome.

Question 35

What makes diamond have a high bpt/mpt?

Answer 35

Strong covalent bonds.

Question 36

Why can’t diamond conduct electricty?

Answer 36

It has no delocalised electrons.

Question 37

What is the bonding structure in graphene?

Answer 37

1 layer of graphite: 1 atom thick layer of hexagonal carbon rings (each carbon is bonded 3 times).

Question 38

What makes graphene an electrical conductor?

Answer 38

It has delocalised electrons.

Question 39

What makes graphene strong?

Answer 39

Strong covalent bonds.

Question 40

What makes graphene lightweight and transparent?

Answer 40

It is 1 atom thick.

Question 41

What are the uses of graphene?

Answer 41

• Aircraft shells
• supercomputers
• smartphone screens

Question 42

What makes metals good thermal conductor?

Answer 42

delocalised electrns can transfer kinetic energy.

Question 43

What makes metals good electrical conductors?

Answer 43

Delocalised electrons can move.

Question 44

What makes metals have a high mpt/bpt?

Answer 44

Strong electrostatic forces of attraction between between ions and delocalised electrons.

Question 45

What makes metals insoluble?

Answer 45

Metallic bonds are too strong to break.

Question 46

What makes metals malleable and ductile?

Answer 46

Layers can slide and still be attracted to the delocalised electrons, which holds them together.

Question 47

What is electronegativity?

Answer 47

The ability for an atom to attract electrons towards itself in a covalent bond.

Question 48

What is the trend of electronegativity in the periodic table?

Answer 48

The further up (smaller atom) and further right (higher nuclear charge), the more electronegativity there is.

Question 49

Which element is the most electronegative?

Answer 49

Fluorine.

Question 50

How does the difference in electronegativity affect the polarity of a bond?

Answer 50

The bigger the difference in electronegativity between two atoms in a bond, the more polar the bond is (the bond is ionic when the difference is even higher)

Question 51

Which scale measures electronegativity?

Answer 51

The Pauling scale.

Question 52

Are all molecules with polar bonds polar molecules?

Answer 52

No. Only the ones with uneven distribution of charge (not symmetrical).

Question 53

What is the order of the different intermolecular forces from strongest to weakest?

Answer 53

• Hydrogen bonding
• permanent dipole-dipole interactions
• London forces

Question 54

How does london forces vary with the size of the molecule?

Answer 54

Generally, the bigger the molecule, the stronger the london forces.

Question 55

How does branching affect london forces

Answer 55

Branching decreases london forces as molecules can’t get closer together.

Question 56

When do hydrogen bond occur?

Answer 56

With molecules that have a bond between H and O/N/F.

Question 57

Why is ice less dense than water?

Answer 57

Ice is a regular structure of water molecules held together by hydrogen bonding.

Molecules are further apart.

Therefore it is less dense.

Question 58

Why is HF the highest?

Answer 58

It can hydrogen bond.

Question 59

Why is there an increase from HCl to HI?

Answer 59

Bigger halides, so more electrons so bigger london forces. This offsets the decreasing permanent dipole-dipole interactions.

Question 60

Why does Al₂O₃ not dissolve?

Answer 60

Ionic bonding is too strong

Question 61

ionic bonding

Answer 61

the strong electrostatic attraction between oppositely charged ions

Question 62

2 factors that affect ionic bonding

Answer 62

ionic charge and size

greater charge = stronger ionic bond
smaller ions can pack closer together so stronger bonding

Question 63

why does ionic radius inccrease down a group?