module 2- foundations in chemistry

Question 1

heavy water

Answer 1

contains two atoms of the 2^H [D] isotope

Question 2

heavy water bp

Answer 2

101.40

Question 3

heavy water mp

Answer 3

3.80

Question 4

heavy water density

Answer 4

1.11

Question 5

water bp

Answer 5

100.00

Question 6

water mp

Answer 6

0.00

Question 7

water density

Answer 7

1.00

Question 8

group 1 (ion charge )

Answer 8

1+

Question 9

group 2 (ion charge )

Answer 9

2+

Question 10

group 5 (ion charge )

Answer 10

3-

Question 11

group 6 (ion charge )

Answer 11

2-

Question 12

group 7 (ion charge )

Answer 12

1-

Question 13

ion group exceptions

Answer 13

Ag+, Zn2+

Question 14

cation

Answer 14

positive ion

Question 15

anion

Answer 15

negative ion

Question 16

oil rig

Answer 16

oxidation is loss, reduction is gain [of electrons]

Question 17

mass defect

Answer 17

the strong forces holding neutrons and electrons comes at the expense of the loss of mass {mass is lost to hold nucleus}

Question 18

standard isotope

Answer 18

base all atomic masses on - carbon 12

Question 19

mass spectrometer finds

Answer 19

the percentage abundances of in a sample of an element

Question 20

mass spec method

Answer 20

sample is vaporised/ ionised to get positive ions, the ions are accelerated. heavier ions move slower and are harder to deflect so they are separated, depicted as mass to charge ratio. each ion reading adds to signal, greater abundance = greater signal

Question 21

mass spec equation

Answer 21

mass/charge of ion

Question 22

for an ion with one positive charge- m/z ratio

Answer 22

ratio is equivalent to the relative isotopic mass

Question 23

metals on the left side of the periodic table (electrons )

Answer 23

lose electrons, to form cations

Question 24

non- metals on the right side of the periodic table (electrons)

Answer 24

gain electrons, to form anions

Question 25

binary compound

Answer 25

2 elements

Question 26

poly atomic

Answer 26

ion may contain atoms of more than one element

Question 27

ammonium (molecular formula )

Answer 27

NH4

Question 28

ammonium (ion charge)

Answer 28

1+

Question 29

hydroxide (mf)

Answer 29

OH

Question 30

hydroxide (ion charge )

Answer 30

1-

Question 31

nitrate (mf)

Answer 31

NO3

Question 32

nitrate (ion)

Answer 32

1-

Question 33

nitrite (mf)

Answer 33

NO2

Question 34

nitrite (ion charge )

Answer 34

1-

Question 35

hydrogen carbonate (ion)

Answer 35

1-

Question 36

hydrogen carbonate (mf)

Answer 36

HCO3

Question 37

mangante [VII] (mf)

Answer 37

Mno4

Question 38

mangante [VII] (ion)

Answer 38

1-

Question 39

carbonate (mf)

Answer 39

CO3

Question 40

carbonate (ion)

Answer 40

2-

Question 41

sulfate (mf)

Answer 41

SO4

Question 42

sulfate (ion)

Answer 42

2-

Question 43

sulfite (mf)

Answer 43

SO3

Question 44

sulfite (ion)

Answer 44

2-

Question 45

dichromate (mf)

Answer 45

Cr207

Question 46

dichromate (ion)

Answer 46

2-

Question 47

phosphate (mf)

Answer 47

PO4

Question 48

phosphate (ion)

Answer 48

3-

Question 49

molecular formula - (brackets)

Answer 49

poly atomic

Question 50

molecular formula is (charge )

Answer 50

neutral, the charges cancels out

Question 51

diatomic molecule

Answer 51

2 atoms bonded together

Question 52

state symbols

Answer 52

(g) = gas
(s) = solid
(l) = liquid
(aq) = aqueous - dissolved in water

Question 53

examples of diatomic molecules

Answer 53

H2,N2,O2,F2,Cl2,Br2,l2

Question 54

do covalent bonds have ions

Answer 54

do not

Question 55

amount (n)

Answer 55

particles measured in the units moles

Question 56

one mole [avogradros constant ]

Answer 56

6.02 x 10^23

Question 57

one mole is equal to

Answer 57

the number of atoms in carbon 12

Question 58

mass of one mole is equal to

Answer 58

atomic mass

Question 59

molecular mass (m)

Answer 59

mass in grams of each mol in a substance /g mol -1

Question 60

amount equation

Answer 60

amount = mass/molar mass

Question 61

molecular formula

Answer 61

number of atoms of each elements in a formula

Question 62

empirical formula

Answer 62

simplest ratio

Question 63

Mr

Answer 63

add the ram/ compared to carbon 12 molecular mass

Question 64

workout relative formula mass

Answer 64

add ram in emp formula

Question 65

hydrated salts

Answer 65

water molecules are apart of the crystalline structure- water of crystallisation, shown as dot between compound and water

Question 66

hydrated copper (II) sulfate [blue] is heated

Answer 66

is heated, the bond holding the water is broken, the water is evaporated, making white anhydrous copper sulfate- without water the crystalline structure is lost

Question 67

method- hydrated salt

Answer 67

Weigh an empty crucible
Add hydrated salt and weigh
Heat over bunsen burner until it turns white, using a tripod and a pipe - clay triangle - about 4 mins
Cool then weigh the anhydrous salt
Experimental formula - assumptions - all water is lost, no further decomposition

Question 68

cm =

Answer 68

ml

Question 69

dm=

Answer 69

1000cm= 1 litre

Question 70

concentration of solution

Answer 70

is the amount of solute in moles, dissolved in 1dm^3

Question 71

standard solution

Answer 71

solution of known concentration

Question 72

n=cxv

Answer 72

amount = conc x volume

Question 73

molar gas volume

Answer 73

is the volume per mole of gas molecules, at stated temperature and pressure

Question 74

room temperature and pressure (rtp)

Answer 74

20 degrees Celsius and 101 kpa

Question 75

at rtp, 1 mol of gas molecules have a volume of

Answer 75

24.0 dm^3 = 24000cm^3

Question 76

amount of mol =equation

Answer 76

volume/molar gas volume

Question 77

ideal gas assumptions for the molecules

Answer 77

random motion/elastic collisions/negligible size/no inter molecular forces

Question 78

pv = nrt

Answer 78

pressure x volume = amount x r x temperature

Question 79

ideal gas constant (r) for water

Answer 79

8.314 j mol-1 k-1

Question 80

cm^3 to m^3

Answer 80

x 10^-6

Question 81

dm^3 to cm^3

Answer 81

x 10^-3

Question 82

c to k

Answer 82

+ 273

Question 83

Kpa to pa

Answer 83

x10^3

Question 84

percentage yield

Answer 84

actual/theoretical x100

Question 85

limiting reagent

Answer 85

not in excess, used first and stops the reaction

Question 86

atom economy

Answer 86

based on balanced equation and assumes 100% yield

Question 87

high atom economy

Answer 87

Produce a large amount proportion of desired product and few unwanted waste products
Are important for sustainability as they make the best use of natural resources, better for environment

Question 88

atom economy equation

Answer 88

sum desired/ total sum x 100

Question 89

finding relative molecular mass-practical

Answer 89

Add sample of volatile liquid to a small syringe via a needle, weigh the small syringe
Inject the sample into a gas syringe through the self sealing rubber cap, reweigh the small syringe to find the mass of the volatile liuid ]
Place in a boiling water bath at 100 degrees, the liquid vaporises producing a gas , the pressure is recorded

Question 90

stoichiometry

Answer 90

balancing numbers give ratio of atoms in moles, of each substance

Question 91

identifying an unknown metal

Question 92

acid releases

Answer 92

H+

Question 93

alkali releases

Answer 93

OH-

Question 94

what is an acid

Answer 94

releases H+ ions when dissolved

Question 95

+ aq

Answer 95

excess of water

Question 96

hydrochloric acid

Answer 96

HCL

Question 97

sulfuric acid

Answer 97

H2SO4

Question 98

nitric acid

Answer 98

HNO3

Question 99

ethanoic acid (vinegar)

Answer 99

CH3COOH

Question 100

metal carbonates examples

Answer 100

Na2CO3, CaCO3, CuCO3

Question 101

metal oxides

Answer 101

MgO, CaO, CuO

Question 102

alkalis

Answer 102

NaOH, KOH, NH3

Question 103

strong acids [dissociation ]

Answer 103

completely dissociates, releases all h atoms into soloution as h+ ioms

Question 104

weak acids [dissociation ]

Answer 104

partially dissociates, only releases a small proportion of h+ ions

Question 105

bases

Answer 105

metal oxides, metal hydroxides, metal carbonates and ammonia are all bases

Question 106

base + acid –>

Answer 106

neutralises and forms a salt

Question 107

what is an alkali

Answer 107

releases OH- ions into solution

Question 108

carbonates + acid

Answer 108

salt + water + co2

Question 109

dissociation in sulphuric acid

Answer 109

Sulfuric acid H2SO4 is a strong acid but this is true for only one of the 2 hydrogen atoms, when sulfuric is mixed with water each H2SO4 molecule dissociates releasing just one of its two

Question 110

dissociation in sulphuric acid equations

Answer 110

hydrogen atoms, as an H+ ion :
H2SO4 (aq) → H+ (aq)+ HSO4- (aq)
The resulting hso4- (aq) ions then only partially dissociate
HSO4- (aq) ⇌ H+ (aq) + SO4 2- (aq)

Question 111

hydrochloric acid formula

Answer 111

HCl

Question 112

sulphuric acid formula

Answer 112

H2SO4

Question 113

nitric acid formual

Answer 113

HNO3

Question 114

ethanoic acid (vinega)

Answer 114

CH3COOH

Question 115

HCl forms

Answer 115

chlorides

Question 116

H2SO4 forms

Answer 116

sulfates

Question 117

HNO3

Answer 117

nitrates

Question 118

CH3COOH

Answer 118

ethanoate

Question 119

sodium chloride (f)

Answer 119

NaCl

Question 120

sodium sulfate

Answer 120

Na2SO4

Question 121

calcium nitrate

Answer 121

Ca(NO3)2

Question 122

ammonium ethanoate

Answer 122

CH3CO2NH4

Question 123

titrations

Answer 123

technique to accurately measure the volume of one solution that reacts exactly with another solution

Question 124

titration uses

Answer 124

1) find the concentrations of a solution
2) identification of unknown substances
3) purity of a substance

Question 125

impurities can cause ….

Answer 125

harm eg. in medication

Question 126

preparing a standard soloutionn- equipment

Answer 126

a volumetric flask is used to make up a standard solution accurately

Question 127

standard solution

Answer 127

a solution of a known concentration

Question 128

preparing a standard solution - method

Answer 128

1)The solid is first weighed accurately

2)The solid is dissolved in a beaker using less distilled water than will be needed to fill the volumetric flask.

3)The last traces of solution are rinsed into the solution with more distilled water

4) the flask is then carefully filled to the graduation line by adding distilled water a drop at a time until the bottom of the meniscus is lines up exactly with the mark. Care at this stage is essential - if too much water is added the solution will be to dilute and must be prepared again

5) the volumetric flask is slowly inverted several times to mix the solution thoroughly, makes consistent results

Question 129

acid base titrations

Answer 129

The solution of an acid is titrated against a solution of a base using a pipette and burette

Question 130

manufactured certainties - pipette and Burette

Answer 130

10cm3 pipette +- 0.04cm3
25cm3 pipette +_- 0.06cm3
50cm3 buirette +- 0.10 cm3