unit two: inorganic chemistry

Question 1

what are the group one metals called

Answer 1

alkali metals

Question 2

what are lithium, sodium and potassium stored in and why?

Answer 2

oil to prevent them from reacting with oxygen and water.

Question 3

properties of alkali metals

Answer 3

good conductors of electricity and heat
soft and can easily be cut with a knife
low melting and boiling points compared with more typical metals such as iron and copper
low densities

Question 4

properties of lithum, sodium and potassium

Answer 4

shiny surface when freshly cut with a knife, but the surface quickly becomes dull as the metal reacts with oxygen in the air.

Question 5

what does lithium, sodium and potassium form when they burn in air

Answer 5

white solid oxides

Question 6

what is the equation for when lithium, sodium and potassium burns in air

Answer 6

4M +O2 –> 2M2O

where M = lithium, sodium or potassium

Question 7

what colour flame does lithium burn with

Answer 7

red

Question 8

what colour flame does sodium burn with

Answer 8

yellow

Question 9

what colour flame does potassium burn with

Answer 9

lilac

Question 10

do lithium sodium and potassium react with water

Answer 10

yes vigorously

Question 11

what do lithium sodium and potassium give when they react with water

Answer 11

an alkaline solution of the metal hydroxide as well as hydrogen gas

Question 12

observations when lithium reacts with warer

Answer 12

moves around the surface of the water
hissing sound
bubbles of gas
gets smaller and smaller, eventually disappears

Question 13

observations when sodium reacts with water

Answer 13

moves around the surface of the water
hissing sound
bubbles of gas 
melts into a shiny ball
gets smaller and smaller, eventually disappears

Question 14

observations when potassium reacts with water

Answer 14

moves around the surface of the water
hissing sound
bubbles of gas
melts into a shiny ball
burns with a lilac-coloured flame
gets smaller and smaller, eventually disappears

Question 15

order of reactivity of lithium, sodium and potassium

Answer 15

potassium - sodium - lithium (more reactive with increasing atomic number)

Question 16

what happens involving reactivity as you move down group 1

Answer 16

reactivity of the elements increases

Question 17

why is potassium more reactive than sodium and lithium

Answer 17

it requires less energy to overcome the electrostatic forces of attraction between the negatively charged electron and the positively charged nucleus.

Question 18

physical state and colour of chlorine at room temperature

Answer 18

pale green gas

Question 19

physical state and colour of bromine at room temperature

Answer 19

red-brown liquid

Question 20

physical state and colour of iodine at room temperature

Answer 20

black solid

Question 21

what happens when chlorine reacts with iron

Answer 21

brown smoke is formed and a brown solid is left behind

Question 22

what happens when bromine reacts with water

Answer 22

bromine smoke and a brown solid are formed

Question 23

what happens when iodine reacts with water

Answer 23

brown smoke and a brown solid are formed

Question 24

what is a halide

Answer 24

a compound of a halogen and one other element

Question 25

whats in a metal halide

Answer 25

a compounf of a halogen and a metal

Question 26

what happens when chlorine reacts with hydrogen

Answer 26

explosion when exposed to UV radiation

Question 27

what happens when bromine reacts with hydrogen

Answer 27

the vapour formed will react when heated

Question 28

what happens when iodine reacts with hydrogen

Answer 28

the vapour will react when heated, but the reaction does not go to completion

Question 29

when is a metal halide formed

Answer 29

e.g. when a halogen is reacted with iron

Question 30

when is a hydrogen halide formed

Answer 30

e.g. when a halogen is reacted with hydrogen

Question 31

general rule for displacement reactions

Answer 31

a halogen will displace a less reactive halogen for an aqeous solution of its halide.

Question 32

what colour is aqueous chlorine

Answer 32

very pale green, usually diluted to colourless

Question 33

what colour is aqueous bromine

Answer 33

orange but will turn yellow when diluted.

Question 34

what colour is aqueous iodine

Answer 34

brown

Question 35

in displacement reactions, the halogen molecule is often being reduced because

Answer 35

it is gaining electrons

Question 36

in displacement reactions, the halide ions are being oxidised because

Answer 36

they are losing electrons

Question 37

when both reduction (of a halogen) and oxidisation (of a halide) is happening the reaction is called a

Answer 37

redox reaction

Question 38

why does reactivity decrease down the group of halogens

Answer 38

the increasing size of the atom means it will be harder for the atom to quickly gain an electron

Question 39

what percentage of air is nitrogen

Answer 39

78%

Question 40

what percentage of air is oxygen

Answer 40

21%

Question 41

what percentage of air is argon

Answer 41

0.9%

Question 42

what percentage of air is carbon dioxide

Answer 42

0.04%

Question 43

how would you measure the oxygen content of air using copper

Answer 43

repeatedly pass 100cm cubed of air back and forwards over a silicia tube packed with copper, by heating it with a blue bunsen flame. the copper will react with the oxygen to form black copper oxide.

Question 44

what would the results be after measuring the oxygen content of air using copper

Answer 44

the final volume of air in the syringe will be approximately 79cm cubed, showing that 21cm cubed has reacted. therefore 21% of the air was oxygen.

Question 45

how would you measure the oxygen content of air using iron

Answer 45

place wet iron fillings at the end of a burette and place in a water trough. the iron will react with oxygen, and over several days the volume of air in the buretter will have decreased.

Question 46

how would you measure the oxygen content of air using phosphorus

Answer 46

put a piece of white phosphorus inside a tube inside a beaker filled with water. the water levels inside the tube and the beaker should be equal. touch the phosphorus with a hot metal rod and burn it. when it stops burning the water level inside the tube will have increased due to the oxygen being used up.

Question 47

observations of magnesium when it burns in oxygen

Answer 47

bright white flame to form a white powder

Question 48

observations of carbon when it burns in oxygen

Answer 48

yellow-orange flame to form a colourless gas.

Question 49

observations of sulfur when it burns in oxygen

Answer 49

blue flame to form a colourless gas

Question 50

describe magnesium oxide

Answer 50

basic oxide, slightly soluble in water and a pH of about 10. reacts with water to form magnesium hydroxide

Question 51

describe carbon and sulfur dioxide

Answer 51

acidic oxides, dissolve in water to form acidic solutions.

Question 52

the reaction between any metal carbonate and an acid will produce

Answer 52

carbon dioxide

Question 53

when metal carbonates are heated what is produced

Answer 53

carbon dioxide

Question 54

observations of the thermal decompisition of copper carbonate

Answer 54

green copper carbonate and black copper oxide are heated, and if carbon dioxide is produced the limewater attacahed to it will turn milky

Question 55

observations of the thermal decompisition of magnesium carbonate

Answer 55

no change, stays white

Question 56

observations of the thermal decomposition of calcium carbonate

Answer 56

no change stays white

Question 57

observations of the thermal decomposition of zinc carbonate

Answer 57

white to yellow when hot and white again when cold

Question 58

observations of the thermal decomposition of sodium carbonate

Answer 58

no observable change, stays white

Question 59

how does production of carbon dioxide enhance the greenhouse effect

Answer 59

more heat is re-emitted by the atmosphere and less heat escapes into space .

Question 60

effects of global warming

Answer 60

polar ice caps melt, sea levels rise, more extreme weather

Question 61

list the reactivity series

Answer 61

potassium
sodium
lithium
calcium
magneisum
aluminium
zinc
iron
tin
lead
copper
silver
gold 
platinum

Question 62

reducing metal oxides

Answer 62

a metal oxide is a compound of metal and oxygen. when the oxygen is removed, the oxide is reduced. it can be reduced by heating it with a metal higher up in the reactivity series.

Question 63

(reactivity series) the substance that carries out the reduction is called the

Answer 63

reducing agent

Question 64

why is hydrogen in the reactivity series

Answer 64

although not a metal, it can be displaced from an aquous solution like a metal, only this time, the solution is an acid.

Question 65

where is carbon in the reactivity series

Answer 65

it can combine with oxygen to form carbon dioxide, between aluminium and zinc.

Question 66

what is rusting

Answer 66

an oxidation reduction

Question 67

the iron reacts with water and oxugen to form rust or?

Answer 67

hydrated iron (III) oxide

Question 68

what is coating

Answer 68

stopping oxygen or water reaching the surface of the metal

Question 69

examples of coating

Answer 69

oiling (bicycle chains)
greasing (nuts and bolts)
painting (car body panels)

Question 70

what is alloying

Answer 70

stainless steel is an iron alloy that does not rust. used for sinks etc

Question 71

what is sacrificial protection

Answer 71

attaching a more reactive metal such as magnesium slows down rusting.

Question 72

what is plating

Answer 72

iron objects can be covered with a thin layer of metal.

Question 73

examples of plating

Answer 73

food cans plated with tin

buckets plated with zinc (also gives sacrifical protection.)

Question 74

give the only two elements that occur as elements in their ores

Answer 74

silver and gold (most unreactive)

Question 75

how can sulfides be easily converted into oxides

Answer 75

by roasting (heating in air)

Question 76

how to extract metal from the first 6 metals in the reactivity series

Answer 76

electrolysis of the molten chloride or molten oxide

Question 77

how to extract metal from the middle 3 metals in the reactivity series (zinc, iron, copper)

Answer 77

heat with a reducing agent such as carbon or carbon monoxide

Question 78

how to extract metal from the last 2 metals in the reactivity series (silver, gold)

Answer 78

you don’t, they occur naturally as elements

Question 79

uses of aluminium

Answer 79

aeroplane bodies
saucepans
food cans
window frames

Question 80

uses of iron

Answer 80

car bodies
iron nails
ships and bridges

Question 81

why is aluminium and iron rarely used by themselves

Answer 81

they aren’t very strong so aluminium alloys are usually used instead.

Question 82

how can aluminium be stengthened

Answer 82

by adding other elements such as silicon, copper or magnesium.

Question 83

what is pure iron also called

Answer 83

wrought iron

Question 84

describe the structure of ions in a pure metal

Answer 84

the ions in a pure metal are the same size and fit neatly in layers able to slide over each other. a relatively small force is required to slide these layers over each other.

Question 85

describe the structure of ions in an alloy

Answer 85

the ions are different sizes so there are no regular layers, meaning it requires a greater force to slide these layers of ions over each other.

Question 86

which end of the pH scale is acidic

Answer 86

0-6 (decreasingly so)

Question 87

which end of the pH scale is alkaline

Answer 87

8-14 (increasingly so)

Question 88

which number on the pH scale is neutral

Answer 88

7

Question 89

give an example of a neutral substance

Answer 89

pure water

Question 90

what colour does litmus paper turn in a solution where the pH is 5 or less

Answer 90

red

Question 91

what colour does litmus paper turn in a solution where the pH is 8 or more

Answer 91

blue

Question 92

what colour does litmus paper turn in a solution between 5 and 8

Answer 92

a shade of purple (between red and blue)

Question 93

what colour is methyl orange in a solution where the pH is 3 or less

Answer 93

red

Question 94

what colour is methyl orange in a solution where the pH is 5 or more

Answer 94

yellow

Question 95

what colour is methyl orange in a solution where the pH is between 3 and 5

Answer 95

orange (between red and yellow)

Question 96

what colour is phenolphthalein in a solution where the pH is 8 or less

Answer 96

colourless

Question 97

what colour is phenolphthalein in a solution where the pH is 10 or more

Answer 97

red

Question 98

what is the simplest way to find an unknown pH

Answer 98

use indicator paper

Question 99

what is pH paper

Answer 99

paper soaked in universal indicator and then dried.

Question 100

acid definition

Answer 100

a substance that dissolves in water to produce hydrogen ions (H+)

Question 101

what is the formula for hydrochloric acid

Answer 101

HCl

Question 102

what is the formula for nitric acid

Answer 102

HNO3

Question 103

what is the formula for sulfuric acid

Answer 103

H2SO4

Question 104

base definition

Answer 104

substances that neutralize acids by combining with the hydrogen ions in them/

Question 105

alkali definition

Answer 105

bases that dissolve in water to form hydroxide ions.

Question 106

examples of alkalis

Answer 106

sodium hydroxide

potassium hydroxide

Question 107

salt definition

Answer 107

the compound formed when the hydrogen ions in an acid are replaced by either a metal ion or by an ammonium ion

Question 108

what is oxidation

Answer 108

when an atom or a molecule loses an electron in a reaction

Question 109

what is reduction

Answer 109

when an atom or a molecule gains an electron in a reaction

Question 110

what does halogen mean

Answer 110

salt producing

Question 111

what are halogens

Answer 111

non-metallic elements with diatomic molecules

Question 112

trend in melting and boiling points in group 7

Answer 112

they increase down the group because the relative molecular mass increases

Question 113

what structure do halogens have

Answer 113

covalent molecular

Question 114

are halogens good conductors of heat and electricity

Answer 114

no they are non metals

Question 115

which element would you necer find in a school lab due to its dangerous reactivity

Answer 115

fluorine

Question 116

when halogens react with hydrogen what do they form

Answer 116

hydrogen halide

Question 117

describe hydogen halides

Answer 117

they are all acidic, poisonous gases that are covalently bonded. theyre very soluble inwater and react with it to produce solutions of acids.

Question 118

when halogens react with alkali metals what do they form

Answer 118

salts

Question 119

trend of reactivity in the halogens

Answer 119

it decreases as you go down the group

Question 120

if something is more reactive,

Answer 120

it has more tendency to react to form a compound and displace the other element

Question 121

what is a spectator ion

Answer 121

e.g. the metal ion that doesn’t do anything in a displacement reaction

Question 122

does an ionic equation include spectator ions

Answer 122

no

Question 123

recution is

Answer 123

loss of oxygen

Question 124

oxidation is

Answer 124

losing electrons (sometimes through combining with oxygen which takes the electrons)

Question 125

why does reduction and oxidation happen at the same time

Answer 125

beacause if something loses oxygen, something else must gain it

Question 126

what is an oxidising agent

Answer 126

something that oxidises something else by taking oxygen away from it

Question 127

what is a reducing agent

Answer 127

something that reduces something else by giving electrons to it

Question 128

when are electrons attracted more strongly to the nucleus

Answer 128

when theyre closer

Question 129

as you move down the group what changes in the states if matter

Answer 129

it goes from gases to liquid to solid

Question 130

what do halogens have that get darker down the group

Answer 130

colourd poisonous vapours

Question 131

when halogens react with metals what forms

Answer 131

ionic salt

Question 132

when halogens react with non metals what forms

Answer 132

non-metals

Question 133

properties of astatine

Answer 133

very dark grey or black
solid at room temp and high melting point
diatomic
less reactive than iodine
displaced by iodine

Question 134

how much nitrogen is in the air

Answer 134

78%

Question 135

how much oxygen is in the air

Answer 135

21%

Question 136

how much argon is in the air

Answer 136

0.9%

Question 137

how much carbon dioxide is in the air

Answer 137

0.04%

Question 138

how would you find the percentage of oxygen in the air

Answer 138

have two gas cylinders with a silica tube packed with copper filings between them. fill them to 100cm cubed collectively, then heat teh silica tube strongly. as the copper turns black as copper oxide forms, the oxygen is consumed, so there will be no change in volume anymore pushing the plungers back and forth. let cool and it will show that the volume of oxygen will have decreased.. then work out the volume of oxyegn recated, and the percentage of oxygen in the air.

Question 139

how would you determine how much oxugen there is in the ari using the rusting of iron

Answer 139

use a connecting ub between a gas syringe and conical flask containing wet iron filings. record the inital reading on the gas syringe, then leave it for about a week until the reading stops changing. record the final reading and calculate the percentage of oxxygen used.

Question 140

what could go wrong when using a practical to calculate th percentage of oxygen in the air

Answer 140

the experiment was not set up for long enough. the iron has not had enough chance to react with all the oxygen in the apparatus.
not enough iron was added at the beginning. it must be in excess, so there is enough iron to react with all the oxygen present.

Question 141

how would you find the percentage of oxygen in air by using phosphorus

Answer 141

put a piece of phosphorus in an evaporating basin floating in a water trough surrounded by a bell jar. mark the inital level of water. remove the bung and touch the phosphorus witha hot metaal wire to ignite it. replace the bunga nd wait untl the white smoke that forms (phosphorus oxide) clears. when the water level stops rising, mark it. then calcualte the percentage using how much oxygen was used up.

Question 142

what does magnesium burn in oxygen to give

Answer 142

a white, powdery ash of magnesium oxide

Question 143

what does sulfur burn in oxygen to give

Answer 143

poisonous, colourless suflur dioxide gas of sulfur dioxide

Question 144

how do you test for hydrogen

Answer 144

squeaky pop

Question 145

properties of metal oxides

Answer 145

ionic compounds containg O 2-
usually basic oxides, so they react with acids to form salts
usually insoluble in water. those that are soluble react with warer to form alkaline solutions containing hydroxide ions

Question 146

properties of non metal oxides

Answer 146

covalent compounds
acidic oxides
non metal oxides often soluble in water and react with it to form aidic solutions containing H + ions

Question 147

how can carbon dioxide be obtained

Answer 147

through the reaction of hydrochloric acid and calcium carbonate or when metal carnonates are heated strongly

Question 148

when is carbon dioxide produced

Answer 148

when fossil fuels burn

Question 149

when does the greenhouse effect occur

Answer 149

when high energy UV and visible light from the sum pass througn the atmoshpher and warm up the surface of the earth. the infrared radiation radiated by the earth is absorbed by CO2 molecules in the atmoshoere. they then give out this energy in all directions, heating the atmosphere.

Question 150

what does the pH scale tell you

Answer 150

how acidic or alkaline a solution is

Question 151

part of the PH scale that is strongly acidic

Answer 151

0-3

Question 152

universal indicator paper

Answer 152

a mixture of indicators which change colour in a gradual way. can be a solution or paper. ranges through a variety of colours form pH 1 to pH 14 but isnt very accurate

Question 153

what can be used as an indicator

Answer 153

anything that has different colours depending on the pH

Question 154

what colour is litmus in acid and alkaline solutions

Answer 154

red in acidic solutions an blued in alkaline, and purple in neutral

Question 155

what colour is universal indicator in neutral solutions

Answer 155

green

Question 156

what do all acids contain

Answer 156

hyrdogen

Question 157

what do you measure when you measure pH

Answer 157

the H+ ions

Question 158

what happens when acids are placed in water

Answer 158

they dissociate (break apart) to form hydrogen ions

Question 159

define acids

Answer 159

substances that act as a source of hydrogen ions in solution.

Question 160

what is a base

Answer 160

a substance that neutralises an acid by combining it with the hydrogen ions in them.

Question 161

what happens when a base dissolves inwater to form solutions

Answer 161

it contins hydroxide ions and are alkalis.

Question 162

define alkalis

Answer 162

a surce of hydroxide ions (OH - ions) in solution

Question 163

what do acids react with in a neutralisation reaction

Answer 163

bases or alkalis

Question 164

why will all neutralisation reactions have the same equation

Answer 164

they all involve the OH - ions from the alkali reacting with the H + ions from the acid ro form water

Question 165

purpose of titrations

Answer 165

to find out how much of the acid/alkali reacts with a certian volume of the alkali/acid.

Question 166

how do you carry out a titration

Answer 166

(rough titration first or now)
measure 25cm cubed of HCl using a pipette. transfer to conical flask. fill the burette with sodium hydroxide solution. take initial reading and record to 2 decimal places. add a few drops of phenolphthalein indicator. add sodium hydroxide until the indicator changes colour and then take the final reading on the burette when its a permanent pale pink colour

Question 167

how do you calculate the volume of alkali added in a titration

Answer 167

subtract the inital reading on the burette from the final reading on the burette

Question 168

why do you not use universal indicator in a titration

Answer 168

because it has a range of colours and changes gradually between them, so we could not see a clear endpoint.

Question 169

when you replace the hydrogen in an acid with a metal what do you form

Answer 169

a salt

Question 170

what are the name of salts formed from HCl

Answer 170

chlorides

Question 171

what are the name of salts formed from HNO 3

Answer 171

nitrates

Question 172

what are the name of salts formed from H2SO4

Answer 172

sulfates

Question 173

what are the name of salts formed from CH3COOH

Answer 173

ethanoates

Question 174

what are the name of salts formed from K3PO4

Answer 174

phosphates

Question 175

the higher a metal is in the reactivity series…

Answer 175

the more vigorous the reaction.

Question 176

(above hydrogen in the reactivity series) metal + acid =

Answer 176

salt + hydrogen

Question 177

metals below hydrogen in the series…

Answer 177

dont react with dilute acids

Question 178

magnesium with sulfuric/hydrochloric acid

Answer 178

rapid fizzing
colourless gas which pops with a lighted splint
reaction mixture becomes warmer
produces magnesium sulfate

Question 179

difference in reaction in xinc and acids

Answer 179

the only difference is its slower because zinc is lower down on the reactivity series

Question 180

metal oxide + acid =

Answer 180

salt + water

Question 181

metal hydroxide + acid =

Answer 181

salt + water

Question 182

neutralisaton reaction

Answer 182

OH- + H+ –> H2O

Question 183

carbonate + acid =

Answer 183

salt + carbon dioxide + water

Question 184

carbonataes react with cold dilute acids to

Answer 184

produce carbon dioxide gas.

Question 185

how do you recognise that green copper carboante reacts with common dilute acids

Answer 185

carbon dioxide is given off and it turns limewater milky.

Question 186

all sodium potassium and ammonium compounds are

Answer 186

soluble

Question 187

all nitrates are

Answer 187

soluble

Question 188

most common chlorides are

Answer 188

soluble except lead (II) chloride and silver chloride

Question 189

most common sulfates are

Answer 189

soluble except lead (II) sulfate, barium sulfate, silver sulfate and calcium sulfate

Question 190

most common carbonates are

Answer 190

insoluble except sodium, potassium and ammonium carbonates.

Question 191

most metal hydreoxides are

Answer 191

insoluble except sodium, potassium and ammonium hydroxides. calcium hydroxide is lightly soluble in water.

Question 192

how do you make soluble salts (except sodium, potassium, ammonium)

Answer 192

acid + metal (only for magnesium to iron)
acid + metal oxide or hydroxide
acid + carbonate

Question 193

making copper sulfate crystals

Answer 193

heat 50cm cubed of dilute sulfuric acid into a beaker and heat it on a tripod and gauze using a bunsen burner.
add a spatula full of black copper oxide and continue heating. stir well to make sure no more will react. (excess copper oxide, when there is some left, we know all the acid has been neutralised)
filter off excess copper oxide and transfer the filtrate to a evaporating basin. heat to boil off some water and to concentrate the solution. keep heating until saturated (dip a glass tod and if crystals form its saturated)
allow to cool at room temp for larger crystals.
filter
leave them to dry in a warm place

Question 194

why dont you evaporate the copper sulfate crystals

Answer 194

you would get anhydrous copper sulfate. this is water of crystallisation.

Question 195

when is a salt said to be hydrated

Answer 195

when it contains water of crystallisation,

Question 196

what is water of crystallisation

Answer 196

when water from the solution becomes chemically bound up with a salt

Question 197

making magnesuymn sulfate crystals

Answer 197

add magnesium to asulfuric acid. wait until fizzing stops. heat and allow to crystallise.

Question 198

how do you know whether to heat the mixture

Answer 198

carbonates and magnesium can react in the cold, everythin else needs heat

Question 199

why cant you make sodium, potassium, ammonium like this

Answer 199

theyre soluble in water

Question 200

making sodium sulfate crystals

Answer 200

25 cm cubed of sodium hydroxide is transferred to a conical flask using a pipette and a few drops of methyl orange.
dilute sulfuric acid is run in from the burette until the indicator just turns from yellow to orange.
colume of acid needed is noted, and the same volumes of cid and alkali are mixed in a clean flask with NO indicator
this is heataed to evaporate off some of the water until a saturated solution is formed. it is then left to for cool for crystals.
filtration
left to dry in warm place

Question 201

making sodium chloride crystals

Answer 201

do a titration with dilute HCl not dilute sulfuric acid, and then use the same procedure as sodium sulfate

Question 202

how do you make insoluble salts

Answer 202

mix two soluble salts to form an insoluble salt and a solution of a soluble one. this is a PRECIPITATION REACTION

Question 203

what is a precipitate

Answer 203

a solid formed by a chemical reaction involving liquids and gases

Question 204

what do we mix to form an insoluble salt

Answer 204

the nitrate of the metal part and the sodium/potassium of the non-metal part

Question 205

if the salt is soluble but not a sodium, potassium, ammonium salt how do you make it

Answer 205

react an acid with an excess of a solid metal (if suitably reactive) metal poxide, hydroxide or carbonatae

Question 206

if the salt is soluble and a sodium, potassium, ammonium salt how do tou make it

Answer 206

use a titration method. react an acid with a solution of sodium, potassium hydroxide or carbonate (or use ammonia solution)

Question 207

if the salt is insoluble how do you make it

Answer 207

use precipitation method. mix two solutions, one contianing the correct pos ion and one the correct neg ion

Question 208

an acid is

Answer 208

a proton (hydrogen ion) doner

Question 209

a base is

Answer 209

a proton (hydrogen ion) acceptor

Question 210

test for oxygen gas

Answer 210

a glowing splint is put into the tube containing the gas. oxygen will erlight it.

Question 211

test for CO2

Answer 211

the carbon dioxide is bubbled through limewater. carbon dioxide turns limewater milky.

Question 212

whats limewater

Answer 212

a calcium hydroxide solution. CO2 reacts with it to form a white precipitate of calcium carbonate

Question 213

test for chlorine gas

Answer 213

damp litmus paper or universal indicator paper put in/held over mouth of test tube. chlorine will bleach the papers

Question 214

test for ammonia

Answer 214

turns damp universla indicator paper or red litmus paper blue

Question 215

water turns anhydrous copper sulfate

Answer 215

blue

Question 216

physical test for purity of water

Answer 216

does it freeze at 0 or boil at 100

Question 217

what is a flame test used for

Answer 217

to show the presence of cations

Question 218

describe the preciptation method for making salts

Answer 218

combine two solutions containing the necessary positive and negative ions

Question 219

describe the excess base method for making salts

Answer 219

react an acid with an excess of a metal (if suitably reactive) , metal oxide, metal hydroxide or metal carbonate and then fliter

Question 220

does reactivity increase or decrease as you go down the alkali metals

Answer 220

increase

Question 221

what makes an element reactive

Answer 221

the ability of it to lose electrons. if it loses an electron easily, it is more reactive

Question 222

what factor contributes to an element’s reactivity

Answer 222

how strongly the electron is attracted to the nucleus of the atom.

Question 223

how does the nucelus attract electrons

Answer 223

the nucleus is positive due to the charge of protons, and so it can attract negative electrons

Question 224

why does reactitivty increase down the alkali metals

Answer 224

the electrons are further away from the centre/nucleus of the atom so the attaction between the oppositely charged electron and nucleus is weaker, allowing it to be lost more easily.

Question 225

why does reactivity decrease down the halogens

Answer 225

because the electrons are further away from the centre/nucleus of the atom so the attraction between the oppositely charged electron and nucleus is weaker, meaning it cannot attract or gain electrons as easily.

Question 226

why is carbon included in the reactivity series

Answer 226

its important in extracting several metals from metal oxides.

Question 227

what happens if you heat carbon with a less reactive metal

Answer 227

it can be a cheap way of removing oxygen from the oxide to leave the metal.

Question 228

why does an oxidising agent always get reduced

Answer 228

it oxidises something else by giving away oxygen

Question 229

why can’t you just evaporate off all water to gain copper sulfate crystals

Answer 229

you would get white anhydrous copper sulfate not blue copper sulfate crystals

Question 230

why can’t you use the method for making soluble salts for sodium potassium and ammonium

Answer 230

they are soluble in water so they would not react with the acid but issolve.

Question 231

what method can you use to make sodium, potassium and ammonium salts

Answer 231

use a titration to neutralise them

Question 232

how do you make sodium potassium and ammonium salts

Answer 232

titration
(acid run from beaker until indicator changes)
volume of acid needed is noted, and same volumes of acid and alkali are mixed together in a beaker without indicator
solution is heated to evaporate off some of it and until a saturated solution forms. it is left to cool for crystals.
the crystals are separated by filtration
then are dried by patting them dry with a paper towel or by leaving them in a warm place.

Question 233

what is a precipitation reaction

Answer 233

where two soluble salts are mixed to form an insoluble salt and a solution of a soluble one. it forms a precipitate

Question 234

what is a precipitate

Answer 234

a solid that is formed by a chemical reaction involving liquids or gases.

Question 235

how does a precipitation reaction work

Answer 235

one solution has ions that are attracted to eachother but not very strongly, and when mixed with another solution, are far more attracted to one of the ions in it, and clump together tightly to form a solid or precipitate.

Question 236

how do yo u know what to mix to create an insolubel salt

Answer 236

the nitrate of the metal part of the insoluble salt, and the sodium/potassium part of the non-metal.

Question 237

the salt isn’t soluble so…

Answer 237

use a precipitation reaction

Question 238

the salt is soluble but it is not a sodium/potassium/ammonium salt so…

Answer 238

react an acid with an excess of a solid metal (if suitably reactive), metal oxide, hydroxide or carbonate.

Question 239

the salt is soluble and is a sodium/potassium/ammonium salt so…

Answer 239

use a titration method. react an acid with a solution of sodium or potassium hydroxide or carbonate.

Question 240

what is an ore

Answer 240

a sample of rock that contains enough of a mineral for it to be worthwhile to extract the metal

Question 241

where are most ores extracted from

Answer 241

the earths crust

Question 242

which metals are found native and what does this mean

Answer 242

they exist naturally as the uncombined element, like gold (or silver or copper)

Question 243

most metals are found in the earths crust combined with other elements. what are the indiviual compounds called

Answer 243

minerals

Question 244

what is roasting

Answer 244

the proccess of converting into an oxide by heating in air

Question 245

how do you obtain the metal from the oxide and what is this called

Answer 245

remove the oxygen, and reduction

Question 246

what is the main reducing agent for metals below carbon in the reactivity series

Answer 246

carbon monoxide

Question 247

why can’t metals higher than zinc be reduced by carbon at reasonable temperatures

Answer 247

the metals aremove reactive than carbon and therefore carbonc annot take the oxygen away from themetal oxide.

Question 248

what are metals above zinc usually produced by

Answer 248

electrolysis

Question 249

what molten salt does aluminium oxide dissolve in

Answer 249

cryolite

Question 250

why is aluminium oxide dissolved in cryolite

Answer 250

it makes the process more economical as opposed to over 2000 degrees, the process can now be carried out at 1000 degrees

Question 251

where does the cathode typically go in extraction of metals via electrolysis

Answer 251

as the lining

Question 252

where does the anode typically go in extraction of metals via electrolysis

Answer 252

as the electrodes inserted at the top

Question 253

why is electrolysis expensive

Answer 253

it requires a lot of energy

Question 254

what is an alloy

Answer 254

a mixture of a metal ususally with other metals or carbon.

Question 255

why are alloys harder than the metals from which they are originally made

Answer 255

the different metals/elements have slightly different sized atoms. this breaks up the regular lattice arrangement and makes it more difficult for the layers of ions to slide over eachother.

Question 256

uses of aluminium (alloys)

Answer 256

planes, electricity cables, pots and pans

Question 257

what do metals’ uses depend on

Answer 257

(low) density and strength

Question 258

why does aluminium resist corrosion

Answer 258

because it has a thin but strong layer of aluminium oxide on the surface, which prevents anything reaching the surface and reacting with it.

Question 259

what is mild steel

Answer 259

the name given to an alloy or iron contianing up to about 25% carbon

Question 260

characteristics of mild steel

Answer 260

strong material that can be easily hammered into various shapes (malleable) and drawn into wires (ductile).

Question 261

what can mild steel be used for

Answer 261

nails, car bodies, ship building, girders and bridges

Question 262

disadvantage of mild steel

Answer 262

it rusts when exposed to oxygen and water

is three times denser than aluminium

Question 263

advantage of car bodies being made of aluminium

Answer 263

lighter, so less fuel is needed.

Question 264

what is high carbon steel

Answer 264

contains 0.6-1.2% carbon, and a little manganese

Question 265

characteristics of high carbon steel

Answer 265

harder and more resistant to wear than mild steel but more brittle. (not as malleable and ductile).

Question 266

what is high carbon steel used for

Answer 266

cutting tools like knives

Question 267

what is stainless steel

Answer 267

an alloy of iron with chromium and often nickel.

Question 268

characteristics of stainless steel

Answer 268

the chromium forms a strong oxide layer like aluminium and this oxide layer protects the iron as well, so it is very resistant to corrosion.

Question 269

what is stainless steel used for

Answer 269

kitchen sinks, saucepans, knives and forks, gardening tools, brewing, dariy and chemical industries

Question 270

which type of steel is most expensive

Answer 270

stainless steel

Question 271

properties of electrical wires made of copper and alloys

Answer 271

very good conductor of electricity and ductile

Question 272

properties of pots and pans made of copper and alloys

Answer 272

very good conductor of heat, very unreactive and malleable

Question 273

properties of water pipes made of copper and alloys

Answer 273

unreactive, does not react with hot or cold water and malleable

Question 274

surfaces in hospitals

Answer 274

antimicrobial properties and malleable

Question 275

what is mixed with iron when it is being extracted

Answer 275

coke

limestone

Question 276

what is the outside of a blast furnace made of

Answer 276

steel lined heat resistant rock