1 - Inorganic Chemistry and the Periodic Table

Question 1

Atomic Radius trend in group 2?

Answer 1

Increases down the group as there are more shells of electrons.

Question 2

Melting Point trend in group 2?

Answer 2

Melting points decrease down the group as the metallic bonding is weakened by the increased atomic radius as the distance between the positive ions and the delocalised ions increases and thus the electrostatic attractive force decreases in strength.

Question 3

1st Ionisation energy trend in group 2?

Answer 3

Decreases down the group as the outermost electrons are successively further from the nucleus and are more shielded, leading to an increase in repulsive force from the electrons.

Question 4

Reactivity trend in group 2?

Answer 4

Increases down the group as the atomic radii increases and there is more shielding. The attraction between the outermost electron and the nucleus is therefore decreased and it is easier to remove electrons and form cations.

Question 5

Group 2 reactions with oxygen?

Answer 5

Burn in oxygen to form metal oxides (ionic bonding)

Question 6

Group 2 reactions with chlorine?

Answer 6

Reacts with chlorine to form metal chlorides (MgCl2)

Question 7

Group 2 reactions with water?

Answer 7

Increasing reactivity with water down the group, creating more vigorous bubbling of H2 down the group.
Mg will burn in steam to produce MgO and H2
In warm water it will make the hydroxide product Mg(OH)2 + H2
Other group 2s will form the hydroxide and hydrogen with cold water
Observations: Fizzing, metal dissolving, Solution heating up

Question 8

Group 2 ionic oxide reactions with water?

Answer 8

Forms hydroxides, higher pHs down the group

Question 9

Reaction of group 2 ionic oxides with acids?

Answer 9

Produces salt and water (MgCl2 + H2O)

Question 10

Reaction of group 2 hydroxides with acids?

Answer 10

Produces salt and water (MgCl2 + H20)

Question 11

Solubility trend of group 2 hydroxides?

Answer 11

• Increasingly soluble down the group
• Mg is sparingly soluble, forms Mg(OH)2, white precipitate, which is milk of magnesia, used as antacid (preferable as only weakly alkaline)
• Ca(OH)2 is limewater, used to detect for CO2 or neutralise acidic soil

Question 12

Solubility trend of group 2 sulphates?

Answer 12

• Less soluble down the group

- BaSO4 used as a contrast medium in medical x-ray photographs

Question 13

Group 2 decomposition trend?

Answer 13

• Decomposes into metal oxide and CO2
• The ease of thermal decomposition decreases down the group and thermal stability increases down the group
• Cations become bigger and have less of polarising power and distort the carbonate ion less. The C-O bond is weakened less and breaks less easily

Question 14

Group 1 decomposition trend?

Answer 14

Lithium is the only element to decompose as it is such a small ion that it has a polarising effect

Question 15

Experiment to investigate the ease of group 2 carbonate decomposition?

Answer 15

Heat known mass of carbonate and pass gas through limewater. Time for the first permanent cloudiness to appear.

Question 16

Thermal decomposition trend of group 2 nitrates?

Answer 16

• Decompose to produce group 2 oxide, oxygen and nitrogen dioxide gas. Brown gas (NO2) would be observed.
  2Mg(NO3)2 –> 2MgO + 4NO2 + O2
• The ease of thermal decomposition decreases down the group and thermal stability increases down the group.
• Cations become bigger and have less of polarising power and distort the carbonate ion less. The N-O bond is weakened less and breaks less easily

Question 17

Thermal decomposition trend of group 1 nitrates?

Answer 17

- Produces Nitrate (III) salt + Oxygen
2NaNO3 --> 2NaNO2 + O2
Sodium nitrate(V) --> Sodium nitrate(II)
- Exception: Lithium nitrate decomposes the same as group 2 nitrates:
4 LiNO3 --> 2Li2O + 4NO2 + O2

Question 18

Flame test method

Answer 18

Use a nichrome wire, clean it in concentrated hydrochloric acid and heat in the blue bunsen flame. If the sample is not solid, crush it, and dip it into sample and then into the bunsen and observe the flame.

Question 19

Explanation of flame colour

Answer 19

Heat causes the electron to move to a higher energy level, the electron drops back down to ‘ground state’, as it falls to a lower energy level, energy is emitted in the form of visible light energy with the wavelength of the observed light.

Question 20

Flame colours

Answer 20

Red, Yellow, Lilac, Red, Blue, No colour, Red, Red, Green

Question 21

Describe the group 7 halogens

Answer 21

Covalent - simple molecular - diatomic
F - Very pale yellow gas
Cl - Greenish gas
Br - Red liquid (Dense brown fumes)
I - Shiny grey solid, sublimes to purple gas

Question 22

Trend in melting point and boiling point for group 7?

Answer 22

• Increases down the group
• Molecules become larger with large atomic radius, larger London Forces between them, stronger intermolecular forces means more energy needed to break the bonds.

Question 23

Trend in electronegativity for group 7?

Answer 23

• Decreases down the group

- Atomic radii increases and therefore the nucleus is less able to attract the bonding pair of electrons

Question 24

Trend in reactivity for group 7?

Answer 24

• Decreases down the group

- Atoms bigger (larger atomic radii), with more shielding, less easily attract and accept electrons

Question 25

Oxidation reactions of halide ions by halogens

Answer 25

• Strong oxidising agent halogens will displace a halogen that is a less strong oxidising agent.
• Oxidising strength decreases down the group
• Chlorine will displace both bromine and iodine, bromine will displace iodine
• The colour of the solution will show which halogen has been displaced or has not reacted

Question 26

What colour will be present in a test tube with a solution of each halogen?

Answer 26

Cl - Very pale green solution
Br - Yellow solution
I - Brown solution

Question 27

What colour will be present in a test tube with a solution of each halogen when an organic solvent is added?

Answer 27

Cl - Colourless
Br - Yellow/Orange
I - Purple

Question 28

What is an organic solvent that can be used?

Answer 28

Hexane

Question 29

Oxidation reactions with halogens and metals?

Answer 29

Metals are oxidised
3CL2(g) + 2Fe –> 2FeCl3(S)
Br2(I) + 2Na(s) –> 2NaBr(s)

Question 30

Oxidation reactions with halogens and metal ions?

Answer 30

Chlorine and Bromine can oxidise Fe2+ to Fe3+ but Iodine is not strong enough oxidising agent for this
Cl2(g) + 2Fe2+(aq) –> 2Cl-(aq) + 2Fe3+
2I-(aq) + 2Fe3+(aq) –> I2(aq) + 2Fe2+(aq)

Question 31

What is disproportionation?

Answer 31

The reaction where an element is simultaneously oxidised and reduced

Question 32

Reaction of chlorine with water

Answer 32

CL2(aq) + H20(l) –> HCLO(aq) + HCL
0 -1 (reduction) +1 (oxidation)
Universal indicator will turn read due to acidity then HCLO bleaches the colour
Pale greenish solution due to chlorine (chlorine water_
Disproportionation reaction

Question 33

Chlorine reaction with cold alkali

Answer 33

Cl2(aq) +2NaOH(aq) --> NaCl(aq) + NaClO(aq) + H20(l)
Colour will fade to colourless
Sodium chlorate (I) produced - bleach
NaOH is dilute
Disproportionation reaction

Question 34

Halogen reaction with hot alkali

Answer 34

3Cl2(aq) + 6NaOH(aq) –> 5NaCl(aq) + NaClO3 + 3H20(l)
Concentrated NaOH
Sodium chlorate (V) produced
Disproportionation

Question 35

Chlorine used in water treatment

Answer 35

Chloric (I) acid dissociates in water

HClO(aq) –> H+(aq) + ClO-(aq)

Question 36

Halides as reducing agents

Answer 36

Halogens decrease in oxidising ability down
Halides (Halogen ions) Increase in reducing ability down
Halide ions act as reducing agents and lose electrons to form halogen molecules
2Cl- –> Cl2 + 2e-

Question 37

Reactions of Chlorine halide with conc sulphuric acid?

Answer 37

NaCl + H2SO4 –> NaHSO4 + HCl

- Mist fumes

Question 38

Reaction of Bromine halide with conc sulphuric acid?

Answer 38

NaBr + H2SO4 --> NaHSO4 + HBr
Misty fumes
Br- ions can reduce sulphur in sulphuric acid to produce SO2 and Br2
Br2 - Brown fumes
SO2 - Colourless gas with choking smell

Question 39

Reaction of Iodine halide with conc sulphuric acid?

Answer 39

NaI + H2SO4 –> NaHSO4 + HI
Misty fumes
I- ions can reduce sulphuric acid to form sulfur dioxide, sulphur and hydrogen sulphide
I2 - Black solid and purple fumes
SO2 - Colourless gas and choking smell
S - Yellow solid
H2S - Colourless gas and rotten egg smell

Question 40

Testing for halide ions

Answer 40

Silver halides (except silver fluoride) are insoluble and form precipitates.
Sample acidified with dilute nitric acid - prevents other anions such as CO3(2-) forming precipitates
Silver nitrate added
AgCl - White
AgBr - Cream
AgI Yellow

Question 41

Confirmatory tests

Answer 41

Ammonia added to confirm presence of halide ions
Change in precipitate is measured
Dilute ammonia Conc ammonia
Cl- Dissolves Dissolves
Br- No change Dissolves
I- No change No change

Question 42

Reactions of halides with water

Answer 42

Hydrogen halides are colourless gases, polar molecules, dissolve in water to form acidic solutions
HF(g) + H20(l) (reversible reaction) H3O+(aq) + F-(aq)
Weak acid ^
HCl(g) + H20(l) –> H3O+(aq) + Cl-(aq)
Strong acid ^
HBr(g) + H20(l) –> H3O+(aq) + Br-(aq)
Strong acid ^

Question 43

Solubility of silver halides in ammonia?

Answer 43

Decrease in solubility down the group
Soluble ion forms when silver halide dissolves in ammonia solution
AgCl(s) + 2NH3(aq) –> (Ag(NH3)2)+(aq) + Cl-(aq)

Question 44

Hydrogen halide reactions with ammonia?

Answer 44

Produces ammonium salts
NH3(g) + HCl(g) –> NH4Cl(s)
They are white, ionic solids