3.1 & 2

Question 1

How is the periodic table arranged

Answer 1

By increasing atomic no.
In periods showing repeating trends in physical and chemical properties
In groups having similar chemical properties

Question 2

First ionisation energy

Answer 2

Removal of 1 mole of electrons from each atom in 1 mole of gaseous atoms

Question 3

Metallic bonding

Answer 3

Strong electrostatic attraction between cations and delocalised electrons

Question 4

Solid giant covalent lattices

Answer 4

Networks of atoms bonded by strong covalent bonds

Question 5

Atomic radii across a period

Answer 5

Decreases
More attraction to nucleus
Greater no. of protons

Question 6

When is the ionisation energy higher

Answer 6

With a smaller radius (higher nuclear charge)
Greater attraction
More energy needed

Question 7

How do inner quantum shells affect the IE

Answer 7

Inner quantum shells shield the electrons from the attractive force of the nucleus
The more inner quantum shells
The greater the shielding effect
The lower the IE

Question 8

When a molecule sublimates what bonds are broken

Answer 8

The intermolecular forces not the covalent bonds

Question 9

Why is Mg harder than Na

Answer 9

No. of delocalised electrons
Charge on cations
Cations are smaller, so the charge density is even greater

Question 10

Why is there an increase in mp and bp of metals from Gp 1 to Gp3

Answer 10

Increased strength of metallic bonding: 
The charge on the positive ion is greater 
More delocalised ions (1 in 1+ vs 3 in 3+)
Smaller ions (greater charge density)

Question 11

Properties of metals

Answer 11

Malleable
Ductile
High mp and bp
Good electrical conductors

Question 12

Solubility of giant ionic lattices

Answer 12

Ionic lattices dissolve in polar solvents like water
Cations attract delta negative charges on the O molecule in H2O
Anions attract delta positive charges on the H molecules in H2O

Question 13

Solubility of simple molecular lattices

Answer 13

London forces can form between molecules and non-polar solvents (hexane), weakening the lattice

Question 14

Group 2 characteristics

Answer 14

Fairly high melting and boiling points

Low densities

Question 15

Group 2 reactions

Answer 15

2 Mg (s) + O2 (g) —> 2MgO (s)
Ca (s) + 2 H20 (l) —> Ca(OH)2 + H2

Question 16

Second IE

Answer 16

X (g) —> X^+ (g) and e^-

X^+ (g) —> X^2+ and e^-

Question 17

Why does reactivity increase down Group 2

Answer 17

Further from nucleus
More shielding
1st and 2nd IE decreases

Question 18

Why does solubility and pH increase down a group

Answer 18

Mg(OH)2 —> Mg2+ and 2 OH-

Dissociation causes more hydroxide ions to be released —> more alkaline solution

Question 19

Down Group 7

Answer 19

No. of full shells increase
Outermost electrons further from nucleus
Atomic radius increases

Question 20

Forces in Group 7 molecules

Answer 20

London forces

More electrons = stronger London forces

Question 21

What do halogens react to form

Answer 21

Halide ions

Question 22

Are halogens reduced or oxidised

Answer 22

Reduced

Oxidising agent

Question 23

Why does reactivity decrease down Group 7

Answer 23

Nuclear charge increases down a group
Atomic radius increases
Shielding increases (outweighs nuclear atraction)
Attraction between nucleus and electron decreases
Halogen less readily accepts an electron

Question 24

Do halide ions get oxidised or reduced

Answer 24

Oxidised

Question 25

Why is iodide the most powerful reducing agent

Answer 25

It wants to lose electrons

Question 26

How does chlorine react with water

Answer 26

To form an acidic solution containing HCl and HOCl (chloric (I) acid)

Question 27

Risks of chlorinating water

Answer 27

Cl2 gas is toxic

Chlorinated hydrocarbons may form (carcinogens)

Question 28

Benefits of chlorinating water

Answer 28

Effectively kills many harmful microorganisms

Reduction in cholera and typhoid rates

Question 29

Bleach

Answer 29

Formed when Cl2 is added to cold dilute NaOH solution
Active ingredient is sodium chlorate (NaOCl)

Cl2 (aq) + 2 NaOH (aq) —> NaOCl (aq) + Nacl (aq) + H2O (l)

Question 30

Tests for halide ions

Answer 30

AgNO3 used to test

Silver halides are insoluble

Question 31

Cl- (aq) and Ag+ (aq) —>

Answer 31

AgCl (s)

White precipitate

Question 32

Br- (aq) and Ag+ (aq) —>

Answer 32

AgBr

Cream precipitate

Question 33

I- (aq) and Ag+ (aq) —>

Answer 33

AgI

Yellow precipitate

Question 34

What does AgCl dissolve in

Answer 34

Dilute ammonia

Question 35

AgBr dissolves in

Answer 35

Concentrated ammonia

Question 36

Does AgI dissolve

Answer 36

No

Question 37

Colours with cyclohexane

Answer 37

Cl2 - pale green
Br2 - orange
I2 - violet

Question 38

Order of identifying ions

Answer 38

Carbonate
Sultate
Halide

Question 39

Carbonate test

Answer 39

Dilute nitric acid
Bubbles of gas, effervescence if positive
If you bubble CO2 through lime water it goes from clear to cloudy

Question 40

Sulfate test

Answer 40

Add Ba^2+ (Ba(NO3)2)

Forms white precipitate if positive - barium sulfate

Question 41

Halide test

Answer 41

Dissolve halide in H2O and add AgNO3
AgX precipitate colour if positive
Also test if dissolves in NH3

Question 42

Ammonium test

Answer 42

Add warm NaOH and place on damp litmus paper

Turns blue

Question 43

Why is the order of the ion tests important

Answer 43

BaCO3 (s) and Ag2SO4 (s) are both insoluble white precipitates but only BaCO3 would give off bubbles of gas so you’d automatically know

Question 44

If you have a mixture of ions:

Answer 44

Do tests in same order
Keep adding HNO3 until reaction stops
Add excess of barium nitrate to ensure all SO4^2- form a precipitate - which can be filtered
Then test filtrate for halide ions

Question 45

Why is dilute nitric acid used in the carbonate test

Answer 45

It does not form any precipitates whereas HCl and H2SO4 do

Question 46

Direct measurement of enthalpy change

Answer 46

Q = m * c * delta-t 
Delta-H = -Q/n

Use n of moles that is not in excess

Question 47

Hess’ law

Answer 47

Enthalpy is a state function, depends only on state
If a reaction can take more than one route and the initial and final conditions are the same, the total enthalpy change is the same

Question 48

Catalyst

Answer 48

A substance that increases the rate of a chemical reaction without being used up in the overall reaction.
Does this by providing an alternative route with a lower activation energy

Question 49

Homogeneous catalysis

Answer 49

A reaction in which the catalyst and reactants are in the same physical state usually aq or g

Question 50

Heterogeneous catalysis

Answer 50

A reaction in which the catalyst and the reactants are in diff. states. The reactant is usually a gas and the catalyst, a solid

Question 51

Dynamic equilibrium

Answer 51

The equilibrium that exists in a closed system when the rate of the forward reaction is equal to the rate of the reverse reaction and the conc. don’t change

Question 52

Le Chateliers principle

Answer 52

When a system in dynamic equilibrium is subjected to a external change, the system readjusts itself to minimise the effect of the change and to restore equilibrium

Question 53

What is Ca(OH)2 used for

Answer 53

Neutralising acid soils

Question 54

What are Mg(OH)2 and CaCO3 used as

Answer 54

‘Antacids’ in treating indigestion

Question 55

Delta H

Answer 55

Reactants - products

Question 56

-ve delta h

Answer 56

Exothermic

Question 57

+ve delta h

Answer 57

Endothermic

Question 58

Activation energy

Answer 58

Minimum energy required to start a reaction

Question 59

Enthalpy change of formation

Answer 59

Formation of 1 mol of a compound from its constituent elements, in standard conditions
Products and reactants in their standard form

Question 60

Standard enthalpy of neutralisation

Answer 60

Formation of 1 mol of water from neutralisation

Question 61

Standard conditions

Answer 61

298K

100 kPa

Question 62

Collision theory

Answer 62

For a reaction to take place, particles must collide in the correct orientation with sufficient energy

Question 63

Why does using a catalyst increase the rate

Answer 63

It provides an alternative route with lower Ea so a greater proportion of collisions have an energy > Ea

Question 64

Increasing the temperature increases the rate because

Answer 64

A greater proportion of molecules have an energy > Ea and there are more frequent successful collisions

Question 65

Changing the pressure/conc. changes the rate because

Answer 65

There are more/less particles per unit volume and therefore there are more/less collisions

Question 66

Enthalpy change of formation

Answer 66

Formation of 1 mol of a substance from its constituent elements under standard conditions and states

Question 67

Enthalpy change of combustion

Answer 67

Complete combustion of 1 mole of a substance with excess O2 under standard conditions and states

Question 68

Enthalpy change of neutralisation

Answer 68

Formation of 1 mol of water from neutralisation under standard conditions and states

Question 69

How to measure rate of reaction from a graph

Answer 69

Drawing a tangent at said point and calculating the gradient

Question 70

Factors affecting rate of reaction

Answer 70

Temperature
Concentration
Surface area
With or without catalysts

Question 71

Effect of increasing surface area

Answer 71

All particles have exposed surfaces to react with each other; more frequent collisions

Question 72

What does the highest point of the Boltzmann curve shows

Answer 72

Most probable energy

Question 73

What is the total area under the Boltzmann distribution equal to

Answer 73

The no. of molecules

Question 74

If the forward reaction is exothermic, how does increased temp affect the equilibrium

Answer 74

Shifts to the LHS

Question 75

If the forward reaction is exothermic, how does decreased temp affect the equilibrium

Answer 75

Shifts it to RHS

Question 76

How does increasing pressure affect the equilibrium

Answer 76

Shifts to side with least moles of gas

Question 77

How does decreasing pressure affect equilibrium

Answer 77

Shifts to side with most moles of gas

Question 78

How does the equilibrium shift if the conc of reactants increases

Answer 78

Shifts to the RHS

Question 79

How does the equilibrium shift if the conc. of products increases

Answer 79

Shifts to the LHS

Question 80

If the forward reaction is endothermic, how does increased temp affect the equilibrium

Answer 80

Shifts to the RHS

Question 81

If the forward reaction is endothermic, how does decreased temp affect the equilibrium

Answer 81

Shifts to the LHS

Question 82

What is Kc a measure of

Answer 82

The conc. of products and reactants at equilibrium

Question 83

How is Kc calculated

Answer 83

Kc = [C]^c [D]^d/ [A]^a [B]^b

Question 84

If Kc&raquo_space; 1

Answer 84

More products are formed at equilibrium

Question 85

If Kc &laquo_space;1

Answer 85

More reactants formed at equilibrium

Question 86

If Kc = 1

Answer 86

Equal conc. of reactants and products

Question 87

Why do solid giant ionic structures not conduct electricity

Answer 87

They have ions fixed in position by ionic bonds and so don’t conduct

Question 88

Role of a catalyst

Answer 88

Increasing rate of reaction without being used up by the overall reaction

Providing alternative route with lower Ea

Question 89

Homogenous catalysts

Answer 89

Has same physical state as the reactants. Reacts with reactants to form intermediate. This then breaks down to give the product and regenerates the catalyst

Question 90

Heterogenous catalyst

Answer 90

Has diff. physical state to reactants. Reactant molecules are absorbed onto the surface of the catalyst where the reaction take place, activation energy is lowered and the product molecules leave by desorption

Question 91

Catalyst for Haber process

Answer 91

Solid Iron

Question 92

Catalyst for reforming

Answer 92

Pt (s) or Rh (s)

Question 93

Catalyst in hydrogenation of alkenes

Answer 93

Solid Ni

Question 94

Industrial preparation of ethanol

Answer 94

C6H12O6 —> 2 C5H5OH + 2 CO2

Question 95

Benefits of catalysts

Answer 95

Increased sustainability:

Lowering temps and reducing energy demand from combustion of fossil fuels with resulting reduction in CO2 emissions

Question 96

Thermal decomposition of Group 2 carbonate

Answer 96

CaCO3 —> CaO + CO2

Question 97

Periodicity

Answer 97

Repeating patterns of properties across diff. periods

Question 98

Why do solid ionic lattices not conduct electricity but molten ones do

Answer 98

The ions are fixed in place by ionic bonds when solid but when molten the ions are mobile

Question 99

Which Group 2 carbonate decomposes at the highest temp

Answer 99

BaCO3

Question 100

Are giant metallic structures soluble in water

Answer 100

No

Question 101

Bonding in gaseous hydrogen halides

Answer 101

Mainly covalent with an increasing tendency towards ionic as you go up the group

Question 102

Which particles are attracted in metallic bonding

Answer 102

Cations and delocalised electrons

Question 103

Which halogen most readily forms 1- ions

Answer 103

Fluorine

Question 104

Percentage uncertainty

Answer 104

No. of readings * uncertainty/ (quantity measured) * 100

Question 105

Limitation in enthalpy pag

Answer 105

Fuel evaporates
Heat loss to surroundings
Incomplete combustion.

Question 106

Sources of error in titrations

Answer 106

Not accurately weighing mass of solid - use more precise balance
Not all acid gets transferred to volumetric flask - rinse out beaker and add rinsings to volumetric flask
Insufficient mixing of solution - invert several times
Burette not rinsed - rinse with acid solution before use

Question 107

Which halogen most readily forms 1- ions

Answer 107

Fluorine

Question 108

NO and CO in a catalytic converters

Answer 108

2NO + 2CO —> 2CO2 + N2
CO and NO adsorbed onto surface
CO2 and N2 made, lowered activation energy
Products desorb from the surface

Question 109

General trend in mp and bp from Gp 1 to Gp 4

Answer 109

Increases

Question 110

Why is there an increase in mp and bp between Gp 3 - Gp 4

Answer 110

From Al to Si; giant metallic lattice to giant covalent lattice
Covalent bonds are stronger than metallic bonds in the same period

Question 111

Why is there a decrease in mp and bp between Gp 4 to Gp 7

Answer 111

Go from giant covalent lattice to simple molecular lattice w/ weak IMF (LF) and molecules get smaller e.g. P4 and Cl2

Question 112

Simple molecular lattice

Answer 112

Weak IMF (LF) between molecules

Question 113

The bigger the molecules …

Answer 113

The more electrons
Stronger induced dipole-dipole forces
Higher mp

Question 114

How does repulsion between electrons in orbitals affect the IE

Answer 114

Less repulsion leads to larger IE

Question 115

Why doesn’t a catalyst change the position of eqm

Answer 115

Increases the forward and backward reaction by the same amount

Question 116

Enthalpy change of reaction

Answer 116

No. of moles of reactants specified in the eqn react together

Question 117

Avg. bond enthalpy

Answer 117

One mole of bonds breaking

Question 118

Why may the actual bond enthalpy be diff to the calculated value

Answer 118

Bonds have diff strengths in diff environments

Question 119

Why do industrial manufacturing processes use catalysts

Answer 119

Higher atom economy 
Reduce CO2 emission 
Enable reactions to occur w/ more specificity (correct stereoisomer) 
Reactions can occur at lower temp 
Saves energy costs

Question 120

What makes a reaction exothermic

Answer 120

Bond breaking absorbs energy
Bond forming releases energy
More energy released than absorbed

Question 121

Endothermic

Answer 121

Energy enters system from surrounding

Question 122

Energy profile diagram for endothermic reaction

Answer 122

Products above reactants

Ea and delta H going up to products

Question 123

How is a dynamic eqm reached

Answer 123

Rate of forward reaction slows down and rate of backwards reaction speeds up

Question 124

Ionic eqn of carbonate test

Answer 124

CO3 2- + 2H+ —> CO2 + H2O

Question 125

Directly measuring enthalpy change of solution/ neutralisation

Answer 125

Measure out sol using a gradated pippette into a polystyrene cup
Weigh out excess of solid
Place thermometer into cup; stir and record temp every 30s for X mins
At X+1 mins add solid to cup
Gently stir and record temp every 30s until 10mins
Draw cooling curve and extrapolate

Question 126

Why must we extrapolate cooling curves to get an accurate value for delta T

Answer 126

Reaction isn’t instantaneous

Heat is lost as mixture heats up

Question 127

Why may enthalpy change of neut/sol be diff from accepted value

Answer 127

No lid is used - heat loss
Spp heat capacity may be inaccurate
Energy absorbed by polystyrene