topic 6- organic chemistry

Question 1

what are the prefixes

Answer 1

meth
eth
prop
but
pent
hex
hept
oct
non
dec

Question 2

what is the molecular formula

Answer 2

shows the number of each element
eg C2H6

Question 3

what is the skeletal formula

Answer 3

shows only c-c bonds and functional groups
eg /\/ 4 carbons

Question 4

what is structural formula

Answer 4

shows which atom or groups are joined together
e..g CH3CH2CH3

Question 5

what is displayed formula

Answer 5

shows every bond and atom in a molecule

Question 6

alkanes

Answer 6

single bond
CnH2n+2

Question 7

alkenes

Answer 7

double bond
CnH2n

Question 8

dihalogenoalkane

Answer 8

CnH2n+2X(halogen)
e.g 2-bromobutane

Question 9

alcohol

Answer 9

CnH2n+2OH
e.g ethanol

Question 10

structual isomers

Answer 10

same molecular formula but different structual formula

Question 11

chain isomers

Answer 11

different carbon chains

Question 12

position isomers

Answer 12

same functional group in different position in same chain
eg propan-1-ol propan-2-ol

Question 13

what is a homologous series

Answer 13

set of compounds with the same functional group and general formula

Question 14

how do you name a compound

Answer 14

no of carbon atoms - prefix/suffix
functional groups (di if two tri if 3 ect)
position of group (smallest possible)

Question 15

sterioisomers

Answer 15

same molecular formula and structual but a different arangment of atoms in space

Question 16

cis trans isomers

Answer 16

cis- on one side- both on top or bottom of bond
trans- across - aross from each other in double bond
doesn’t use priority

Question 17

how does e-z work

Answer 17

work out which atom on the left has the highest priority (highest atomic number)
do same for right hand side
then dedicde if these are cis (z) or trans (e)

Question 18

complete combustion

Answer 18

CH3 + O2 –> CO2 + H2O then equalise
issues are water vapour and carbon dioxide which are greenhouse gasses

Question 19

incomplete combustion

Answer 19

CH3 + O2 –> C + CO + H2O
forms solid carbon
and carbon monoxie which is very dangerous
this happens when there isnt enough oxygen

Question 20

dangers of crude oil

Answer 20

sulphur oxides
nitrogen oxides
form acid rain

Question 21

catalytic converters

Answer 21

use precious metals
spread over honeycomb mesh
reactions happen to get rid of the harmful gasses
not very good at removing sulphur compounds

Question 22

biodiesel

Answer 22

made from vegetable oil such as those from sunflowers

Question 23

bioalcohols

Answer 23

made by the fermention of sugars
then seperated from the water to make energy

Question 24

chlorination of methane
step 1

Answer 24

initiation
homolytic fission occurs meaning breaking down the chlorine and the two atoms get the same amount of electrons
uv light breaks it down
Cl2 –> Cl* + Cl*
a free radical is made (species with unpaired electrons)

Question 25

chlorination of methane
step 2

Answer 25

propergation
free radicals are very reactive and when they collide with methane they remove a hydrogen atom
Cl* + CH4 –> HCl + CH3*
CH3* is also very reactive so reacts with chlorine
CH3* + Cl2 –> CH3Cl + Cl*

Question 26

chlorination of methane last step

Answer 26

termination
when radicals colide they form a molecule as the two unpaired form a covalent bond
three options
Cl* + Cl* –> Cl2
Cl* + CH3 –> CH3Cl
CH3* + CH3* –> C2H6

Question 27

double bond

Answer 27

two pie bonds around a sigma bond
which is stronger because there is a good overlap of s orbitals in sigma bonds wheres bad overlap of p orbitals

Question 28

what is hydrogenation

Answer 28

hydrogen is added to a alkene
result is an alkane
eg
C2H4 + H2 –> C2H6
need a nickel catalyst
used to make margarine

Question 29

what happens in addition reactions

Answer 29

the pi bond electrons are used to form new bonds with an attacking molecule

Question 30

how do you test for an alkene

Answer 30

bubble through bromine water and if double bond is present bromine becomes colourless from orange

Question 31

what is halogenation

Answer 31

halogen is added to an alkene
forms a dihalegenoalkane
C2H4 + Br2 –> C2H4Br2

Question 32

what is hydration

Answer 32

reaction of an alkene with water to make an alcohol
C2H4 + H2O –> C2H5OH
300* 60 atmp
phosphoric acid catalyst

Question 33

what is addition of hydrogen halides

Answer 33

alkene to halogenoalkane
C2H4 + HBr —> C2H5Br

Question 34

what is oxidation to diols

Answer 34

both addition and reduction
diol- compound containing two oh groups
CH2=CH2 + H20 + [O] –> CH2OHCH2OH
[] is the oxidising agent which is potassium maganate (vii)

Question 35

mechanism for addition of alkenes

Answer 35

electrophilic addition
step 1
bromine comes close and induces a dipole - closest to alkene is positive
step 2
curly arrow from double bond to positive then positive to negative
hetrolytic fission and br- is a elecrtophyle
step 3
positive joins now alkane and negative has lone pair which have curly arrow to positive charge on alkane
step 4
negative joins to alkane at the member of the past double bonded which is bonded to the most carbons
https://www.chemguide.co.uk/mechanisms/eladd/symbr2.html

Question 36

electrophile

Answer 36

speices attracted to a region of high electron density
attracted to electrons

Question 37

electrophilic adition

Answer 37

reaction in which two molecules form one and the attacking is an electrophile

Question 38

equation for polmerisation reactions

Answer 38

n monomer –> [repeating unit with covaltent bonds on each side] n

nH2C=CH2 → [―CH2CH2―]n

double bonds just single line

Question 39

solutions to polymer waste

Answer 39

-recycling
-incineration
- chemical feedstock

Question 40

recycling

Answer 40

converting to other materials
first stage - sorting
many types of polymer and cannot be processed together
much is done by hand which is inefficent
can use identifaction codes
second stage - processing
chopping into small pieces and washing it
then used to make new materials

Question 41

inceneration

Answer 41

most of the products are hydogen and carbon
can be used as fuels
converts it to heat energy which can be used to heat homes or generate electricity
mostly gaseous products which can be harmfull to enviroment
e.g chlorine or heavy metals

Question 42

chemical feedstock

Answer 42

similar to cracking
breaks down into gasses
feedstock that can be used in other chemical reactions

Question 43

biodegradable polymers

Answer 43

polymers that will be broken down by microbes in the enviroment
used on a small scale in medicine
-often made from plant material so need land to grow
-cannot recycle, incinerate or use as chemical feedstock

Question 44

halogenoalkanes

Answer 44

series of compounds with general formula CnH2n+1X,
x is a halogen
contain a dipole as halogen is more electronegative 𝛿− or 𝛿+.

Question 45

halogenoalkanes pst?

Answer 45

the C they are attached to is attached to __ other c’s
primary-1
secondary-2
tertiary-3

Question 46

neucleophiles

Answer 46

species attracted to areas of low electron density (postive)
use a lone pair of electrons
negative

Question 47

halogenoalkane hydrolysis reaction

Answer 47

reaction 1
they react with water
RX + H2O –> ROH + HX
or
RX + H2O –> ROH + H+ + X-
ROH - alchohol
both colourless liquids

Question 48

rates of hydrolysis of halogens experiment

Answer 48

add ethanol (as a solvent to make sure the substances disolve)
add silver nitrate solution
controll variables- temp + concentration + vol
add halogenoalkane
time how long precipitate forms

Question 49

rates of hydrolysis of halogens results

Answer 49

reactivity increases down group (iodo fastest)
because c-i bond is the weakest so takes least energy to break
tertiary are quickest

Question 50

halogenoalkane substitution reactions

Answer 50

1- RX–>ROH
-H2O/warm
2- RX–>ROH
-KOH/heat under reflux
3- RX –>RCN
KCN/heat under reflux
4- RX –> RNH2
NH3/ heat in a sealed tube

Question 51

halogenoalkane substitution reaction 2
aqueous potassium hydroxide

Answer 51

-heat with aqueous potasium hydroxide
-forms alcohol
attacking nucleophille is OH-
eg
CH3CH2CH2Cl + KOH –> CH3CH2CH2OH + KCL

Question 52

mechanism for reaction 2

Answer 52

Question 53

halogenoalkane substitution reaction 3
potasium cynanide

Answer 53

forms nitriles
heat under reflux
nucleophile is CN-
CH3CH2Br + KCN –> CH3CH2CN + KBr
or
CH3CH2Br + CN –> CH3CH2CN + Br-
extends the carbon chain

Question 54

halogenoalkane substitution reaction 4
ammonia

Answer 54

sealed tube -ammonia gas would escape
forms primary amine
nuclophile is NH3
two equations as first step only forms a salt so ammonia is used in access
CH3CH2CH2CH2I + NH3 –> CH3CH2CH2CH2NH3+ + I-
CH3CH2CH2CH2NH3+I- + NH3 –> CH3CH2CH2CH2NH2+ + NH4+I-
then these can be combined to form
CH3CH2CH2CH2I + 2NH3 –> CH3CH2CH2CH2NH2 + NH4+I-

Question 55

mechanism for reaction 4

Answer 55

Question 56

combustion of alcohols

Answer 56

co2 and h2o formed
e.g
C2H5OH + 3O2 –> 2CO2 + 3H2O

Question 57

conversion of alcohols to halogenoalkanes

Answer 57

replace the hydroxl group with a halogen atom
-halogenation
-different method for each halogen

Question 58

chlorination

Answer 58

use phosphorus chloride (white solid) PCl5
no heat needed
2 inorganic products
-phosphorus oxychloride
-hydrogen chloride
+ C3H7CL
for tertary you can shake with hcl at room temp
(CH3)3CCl (l)+ H2O

Question 59

bromination

Answer 59

use potassium bromide and 50% sulfuric acid
warmed with the alcohol
better to write two equations as inorganic reagents form hydrogen bromide for the main reaction
KBr + H2SO4 –> KHSO4 + HBr
or
2KBr +H2SO4 –> K2SO4 + 2HBr
other inorganic product is potassium hydrogensulfate or potassium sulfate
C4H9OH + HBr –> C4H92Br + H2O

Question 60

iodination

Answer 60

red phosphorus and iodine
heated under reflux with alcohol
two equations inorganic form phosphorus iodide for main reaction
2P + 3I2 –> 2PI3
3C2H5OH + PI3 –> 3C2H5I + H3PO3
forms phosphorus acid

Question 61

dehydration of alcohols to alkenes

Answer 61

heating with concentrated phosphoric acid
OH and H removed and C=C formed
water is only inorganic product

Question 62

what is heating under reflux?

Answer 62

you use a condenser so any gaseous products are condensed and put back as liquid into the reaction

Question 63

what happens when alcohols are oxidised

Answer 63

hydrogen of oh is removed and a hydrogen from the other side of the same carbon molecule
double bond C=O

Question 64

keytone

Answer 64

a keytone is formed when a secondary alcohol is oxidised ( tertiary cannot be oxidised)
homologous group
RCOR
e.g propanONE

Question 65

aldehyde

Answer 65

forms when a primary alcohol is oxidised
homologous group
RCHO
e.g ethanaAL
more easily oxidised than alcohols
leads to a gain of oxygen atom
goes between c and h of the CHO group
forms a carboxylic acid - RCOOH

Question 66

oxidiation reagent

Answer 66

mix of pottassium dichromate and dilute sulfuric acid
use [O] to represent oxidation agent
colour change from orange to green

Question 67

how do you test for purity

Answer 67

measure its boling temperature
impurities rasie boiling temperature

Question 68

alkane with alcohol

Answer 68

conc hcl
co2 given off
H+ reacts with hydrogencarbonate

Question 69

drying agent

Answer 69

anhydrous -
Calcium chloride
magnesium sulphate
sodium sulphate

Question 70

temp range

Answer 70

one above and below melting/boiling

Question 71

distilation apparatus problems

Answer 71

thermomiter at tube height - wrong temp
not enough ice - quicker condensation
gap between tube and collection
anti bumping granuals
water in bottom

Question 72

Esther

Answer 72

c= o
|
o
double and single bond o
then c attached to single bonded o and chain continues

Question 73

how are oxides formed in fossil fuels combustion

Answer 73

sulphur compounds react with oxygen
nitrogen reacts with oxygen in air
2NO + 2CO –> N2 + 2CO2

Question 74

branched isomers

Answer 74

lower boiking temp
lower surface area
intermolecular forces are weaker
tertiary is most branched

Question 75

signma bonds

Answer 75

single bonds

Question 76

pi bonds

Answer 76

double bonds

Question 77

hydrocarbond

Answer 77

compound with hydrogen and carbon only

Question 78

catayltic converter process

Answer 78

adsorbtion of gasses to catalytic surface
weakening of bonds on catalytic surface
deabsorbition of products from catalytic surface

Question 79

intermediate for reaction two

Answer 79

Question 80

is phenol more reactive than benzene

Answer 80

lone pair on oxygen donated to ring
increases electron density
more susceptible to electrophilic attack