Last Bit of Yr13!!!

Question 1

Which are the two ways you can form nitriles?

Answer 1

From aldehydes + ketones

From haloalkanes

Question 2

What are the reagents needed for the formation of nitriles from aldehydes + ketones?

Answer 2

React aldehyde/ketone with H2SO4 + NaCN

Question 3

What is the mechanism for forming nitriles from aldehydes + ketones?

Answer 3

Nucleophilic addition

Question 4

What is the equation for forming nitriles from aldehydes + ketones?

Answer 4

CH3CH2CH2CHO + HCN —-> CH3CH2CH2CH(OH)CN

H2SO4/NaCN go across the arrow

Question 5

Name CH3CH2CH2CH(OH)CN

Answer 5

2 - hydroxy pentane nitrile

Question 6

What is the nucleophile in forming nitriles from aldehydes + ketones?

Answer 6

CN-

Question 7

What are the reagents needed for formation of nitriles from haloalkanes?

Answer 7

React haloalkane with NaCN or KCN in ethanol

Question 8

What is the mechanism for forming nitriles from haloalkanes?

Answer 8

Nucelophillic substitution

Question 9

What is the equation for forming nitriles from haloalkanes?

Answer 9

CH3CH2Cl + NaCN —-> CH3CH2CH2CN + NaCl

Question 10

Name CH3CH2CH2CN

Answer 10

Butane nitrile

Question 11

What is the nucleophile in forming nitriles from haloalkanes?

Answer 11

CN-

Question 12

Can you use nitriles as intermediates to form other organic substances?

Answer 12

YES

Question 13

What happens if you reduce a nitrile?

Answer 13

Form amine

Question 14

What happens if you hydrolyse a nitrile?

Answer 14

Form carboxylic acid

Question 15

What are the reagents for reducing a nitrile?

Answer 15

H2

Ni catalyst

Question 16

What is the equation for reducing a nitrile?

Answer 16

CH3CH2CN + 2H2 —-> CH3CH2CH2H2

Ni across arrow

Question 17

Name CH3CH2CH2H2

Answer 17

Propylamine

Question 18

What are the reagents for hydrolysis of nitrile?

Answer 18

Heat

Dilute aqueous HCl

Question 19

What is the equation for hydrolysis of nitrile?

Answer 19

CH3CH2CN + 2H2O + HCl —-> CH3CH2COOH + NH4Cl

Question 20

Name CH3CH2COOH

Answer 20

Propanoic acid

Question 21

Name NH4Cl

Answer 21

Ammonium chloride

Question 22

What are the six steps for synthesising aspirin?

Answer 22

Prepare organic substance
Prepare aspirin
Filter under reduced pressure
Recrystallisation 
Filter under reduced pressure again 
Determine melting point of aspirin

Question 23

What happens in “Prepare organic substance”?

Answer 23

Add NaOH to oil of wintergreen
Reflux - 30 mins
Leave to cool
Add HCl to neutralise

Question 24

What happens in “Prepare aspirin”?

Answer 24

React 2-hydroxy benzoic acid (salicylic acid) with ethanoic acid
Add drops of conc acid
Warm mixture in water bath till solid dissolves

Question 25

What happens in “Filter under reduced pressure”?

Answer 25

Cool mixture

Filer under pressure using Buchner funnel

Question 26

What happens in “Recrystallisation”?

Answer 26

Slowly add minimum amount of hot solvent (ethanol) to impure aspirin
Sample will dissolve
Cool mixture to allow recrystallisation

Question 27

What happens in “Filter under reduced pressure again”?

Answer 27

Filter under reduced pressure using Buchner funnel

Wash purified aspirin in cold water

Question 28

Why do you wash aspirin in cold water?

Answer 28

As it isn’t very soluble in cold water

Question 29

What happens in “Determine melting point of aspirin”?

Answer 29

Use melting point apparatus
Insert sample into melting point tube
Slowly increase temperature
Record the range over when it starts to melt
Impurities = lower melting point = wider range

Question 30

What is an alternative method for “Determine melting point of aspirin”?

Answer 30

Set up Thiele Tube
Attach capillary tube to thermometer using rubber band
Use micro-burner to slowly heat side arm of Thiele Tube
When solid starts to melt remove heat + record temperature

Question 31

What are the three types of chromatography?

Answer 31

Paper
TLC
Gas

Question 32

What is the stationary phase in paper?

Answer 32

Paper

Question 33

What is the mobile phase in paper?

Answer 33

Solvent

Question 34

What does it mean if the dot remains under the line?

Answer 34

Not soluble in that solvent

Question 35

Where should the amount of solvent be up to?

Answer 35

Below pencil line

Question 36

How do you calculate Rf value?

Answer 36

         Solvent front

Question 37

What are the problems with paper?

Answer 37

Components can have similar Rf values

Unknown substances appear

Question 38

What is the stationary phase in TLC?

Answer 38

Silica coated on piece of plastic

Question 39

What is the mobile phase in TLC?

Answer 39

Solvent

Question 40

What is the method for TLC?

Answer 40

Base line drawn in pencil + place dots along line
Plate places in beaker of solvent (below pencil line)
Lid placed on to ensure atmosphere of tank saturated wit volatile solvent
As solvent moves up mixture separates into components
Solvent reaches top of plate + plate removed
Solvent front noted + solvent left to evaporate

Question 41

What happens if the substance is colourless?

Answer 41

Use UV light

Chemically

Question 42

How does it work if you use UV light?

Answer 42

Stationary phase has chemical that will fluoresce under UV light
Spots go white

Question 43

How does it work if you do it chemically?

Ninhydrin

Answer 43

Ninhydrin sprayed on = amino acids go brown/purple colour

Question 44

How does it work if you do it chemically?

Iodine crystals

Answer 44

Put dried plate in beaker of iodine crystals + put lid on

Spots turn brown

Question 45

How does TLC acc work?

Answer 45

Silica gel form silicon dioxide
Surface of silica = very polar
So can form H bonds with OH group
+ London forces + permeant dipole-dipole

Question 46

What is adsorption?

Answer 46

The adhesion of atoms, ions or molecules from a gas, liquid or dissolved solid to a surface

Question 47

How does TLC acc work?

Part 2

Answer 47

Solid stationary phase = pigment adsorbed onto surface of solid particles
Relative forces of attraction between stationary phase, mobile phase + pigment = separation

Question 48

What does it mean if pigment has weak forces of adsorption?

Answer 48

Less polar = move further up

Question 49

What does it mean if pigment has strong forces of adsorption?

Answer 49

More polar = moves less

Question 50

What are the control measures of TLC?

Answer 50

Same solvent
Same temperature
Same stationary phase

Question 51

What is gas - liquid chromatography?

Answer 51

Long column filled with liquid compounds

Sample vaporised + pushed through column by inert carrier gas

Question 52

What inert gas is often used in GLC?

Answer 52

N2 or He

Question 53

Why is GLC kept in an oven?

Answer 53

To control temperature

Question 54

What does GLC work on?

Answer 54

Relative solubility compared to stationary phase

Question 55

What is the stationary phase of GLC?

Answer 55

Liquid coated on tubes

Question 56

What does GLC show because it works on solubility compared to stationary phase?

Answer 56

Different compounds will travel at different speeds

= different boiling points + temperature inside column

Question 57

What is retention time?

Answer 57

The length of time a compound remains in a column

Question 58

How do you calculate retention time?

Answer 58

Time taken from sample injected until max height for that compound

Question 59

What does each peak in GLC correspond to?

Answer 59

Different compounds

Question 60

What must you do after you calculate retention time?

Answer 60

Compare to known database

Question 61

Which compound would come out last in GLC?

Answer 61

The most similar to stationary phase

Question 62

Which compound would come out first in GLC?

Answer 62

The one that isn’t similar but has the least no. of H bonds

= more H bonds = stronger attraction with stationary phase

Question 63

How do you calculate the composition of a mixture in GLC?

Answer 63

Area of triangle for peak = 0.5 X base X height
Work out total area = add them together
Area of peak/ total area X 100

Question 64

How does mass spectroscopy work?

Answer 64

Sample injected
Vaporised in heated vacuum
Gas vapour bombarded with high energy e- forms positive ions in ionisation chamber
+ions accelerated
Ions travel through magnetic filed in drift region
Time taken for ions to reach detector is measured

Question 65

What does it mean if the ions are heavier?

Answer 65

Move more slowly = take longer to reach detector

Question 66

What does M/Z of molecule equal + why?

Answer 66

Mr

As weight of e- is negligible

Question 67

What does the M+ peak equal?

Answer 67

The total Mr for the compound

Question 68

What is abundance?

Answer 68

The relative amount of ions in the spectra - usually given as a percentage

Question 69

What is the equation for mass spectroscopy?

Answer 69

M (g) —-> M+ (g) + e-

Question 70

Outline how a mass spectrometer would show the presence of Fe

Answer 70

M/Z value around 56

Question 71

Why use the word “around”?

Answer 71

Abundance of isotopes

Question 72

Outline how the mass spectrum would show how many different isotopes of sulphur were present

Answer 72

Count no. of M/Z peaks around 32

Question 73

Relative atomic mass of sulphur found on Mars is different from relative atomic mass of S found on Earth. Why?

Answer 73

Different isotopic abundances

Question 74

What can excess ionisation do when it is transferred to the molecular ion?

Answer 74

Can cause it to fragment

Question 75

What happens when it fragments?

Answer 75

Produces smaller positive ion + radical
Smaller positive ion detected
Fragment ions can be broken down further

Question 76

What is the M+1 peak caused by?

Answer 76

Carbon - 13 isotope

Question 77

What is the Mr of CH3+?

Answer 77

15

Question 78

What is the Mr of C2H5+?

Answer 78

29

Question 79

What is the Mr of C3H7+?

Answer 79

43

Question 80

What is the Mr of C4H9+?

Answer 80

57

Question 81

What is the Mr of OH+?

Answer 81

17

Question 82

What are the example of CH3CH2OH splitting?

Answer 82

CH3CH2OH (g) —-> CH3CH2OH+ (g) + e-
CH3CH2OH+ (g) —-> CH2OH+ (g) + .CH3
CH3CH2OH+ (g) —-> CH3+ (g) + .CH2OH
CH3CH2OH+ (g) —-> CH3CH2+ (g) + .OH

Question 83

Whys is GLC not suitable technique for analysing mixture of dyes?

Answer 83

Because dyes not easily vaporised