13073722
Beschreibung
Mindmap von Somto Ibeme, aktualisiert more than 1 year ago
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Erstellt von Somto Ibeme
vor mehr als 6 Jahre
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Chemistry - Organic Chemistry
- CRUDE OIL
- mixture of large
compunds, most
hydrocarbons/nautral gas
- hydrocarbons - a compound madeup
of hydrogen + oxygen atoms only
- homologous - CnH2n +
2, methane: CH4
- alkanes
- single bond, less reactive,
not affected by
acid/alkali
- burn well in O2, produce CO2 + H2O,
lots of heat, used as fuels -
propane/butane used for camping gas
- saturated, single
covalent bond
- single bond, less reactive,
not affected by
acid/alkali
- alkenes
- double bond, more reactive,
made by crakcking
- unsaturated,
double covalent
bond
- double bond, more reactive,
made by crakcking
- test for hydrocarbons - bromine water
- alkane in bromine water - stays orange
, if alkene placed - goes colourless,
double bond - more reactive
- alkane in bromine water - stays orange
, if alkene placed - goes colourless,
double bond - more reactive
- homologous - CnH2n +
2, methane: CH4
- hydrocarbons - a compound madeup
of hydrogen + oxygen atoms only
- fractional distillation
- separating crude oil into
useable products
- larger molecules, higher
b.p./m.p. viscous, difficult to
light/burn, smoky flame
- smaller molecules, lower
b.p./m.p. , easy to ignite,
clean flame, runny/thin
- smaller molecules, lower
b.p./m.p. , easy to ignite,
clean flame, runny/thin
- catalyst - substance able to
speed up reaction w/o changing
properties of substance or itself
- fraction - group of molecules
w/ similiar b.p.
- fractionating column hot at
bottom, cooler at top
- larger hydrocarbons turn into
liquids at bottom, higher b.p.
- high temps, smaller hydrocarbons
stay gas, rise up, condense
- some stay as gases, leave
top
- some stay as gases, leave
top
- require alot of
heat
- high temps, smaller hydrocarbons
stay gas, rise up, condense
- larger hydrocarbons turn into
liquids at bottom, higher b.p.
- separating crude oil into
useable products
- too many large, less useful hydrocarbons (bitumen)
smaller hydrocarbons (petrol) more in demand
- cracking, big molecules broken down
by heating, pass over catalyst
- always produces shortchain
molecules, ethene
- always produces shortchain
molecules, ethene
- cracking, big molecules broken down
by heating, pass over catalyst
- fossil fuel, million of years to form, tiny
animals + plants lived in sea buried in mud
- mixture of large
compunds, most
hydrocarbons/nautral gas
- POLYMERISATION
- condensation
- nylon - small molecule always given
off, water/HCL, different functional groups
- esters (carboxylic acid + alcohol)
- esters (carboxylic acid + alcohol)
- nylon - small molecule always given
off, water/HCL, different functional groups
- addition
- small repeating unit, 1
functional group
- from products of fractional distillation
- make plastic bags, food containers
(poly(ethene)), ropes,loudspeakers
(poly(propene)), pipes, film for
fod/bottles (poly(chloroethene))
- from products of fractional distillation
- small repeating unit, 1
functional group
- small, reactive molecules (monomers) join to
make polymer, large no. of similar units
- thermoplastics - soften easily,
remoulded, weak forces
between polymer chains
- thermoset - hard + rigid, heat strongly
- break down + char, polymer chains
fixed by strong bonds, cross links
- react w/ other monomers
- react w/ other monomers
- thermoset - hard + rigid, heat strongly
- break down + char, polymer chains
fixed by strong bonds, cross links
- advantages: don't rot, last a long time,
- disadvantages: take up space in landfills, burning
causes pollution expensive (need high temps)
- plastics made by bacteria,
biodegradable, expensive
- hydrogen cyanide forms when burning plastics
w/ N2 in limited O2 supply
- plastics made by bacteria,
biodegradable, expensive
- disadvantages: take up space in landfills, burning
causes pollution expensive (need high temps)
- amino acids have 2 different
function groups in molecule
- produce poly(peptides)
- produce poly(peptides)
- condensation
- ALCOHOL
- functional group OH
- neutral when put in water
- used for drinking, cleaning products,fuel
- can produce ethanol 2 ways
- fermentation (yeast + plant based sugar)
- renewable, slow, not very pure, cheaper (don't
need lots of heat) good in hot countries, beer
- renewable, slow, not very pure, cheaper (don't
need lots of heat) good in hot countries, beer
- hydration (ethene + steam + phosphoric acid (catalyst))
- non renewable, quick, more expensive
(need lots of heat) 100% pure, cleaning products
- ESTERS
- functional group COO
- reaction of alcohol + carboxylic acid
- slow, carried out w/ concentrated acid (sulfuric acid)
- carboxylic acid + alcohol - ester + H2O
- distinctive smells, flavouring
for foods, perumes
- 1st part of name - alcohol
- 2nd part - acid
- if alcohol = methanol and acid = ethanoic acid
- ester = methyl ethanoate
- ester = methyl ethanoate
- if alcohol = methanol and acid = ethanoic acid
- 2nd part - acid
- volatile liquid = low b.p. + evaporate easily (to reach scent receptors)
- functional group COO
- ESTERS
- non renewable, quick, more expensive
(need lots of heat) 100% pure, cleaning products
- fermentation (yeast + plant based sugar)
- functional group OH
- CARBOXYLIC ACIDS
- functional group COOH
- weak acids
- unpleasant tastes/smells
- metal + carboxylic acid - salt + hydrogen
- salt always ends in ethanoate
- lighted splint to test for H2
- lighted splint to test for H2
- salt always ends in ethanoate
- carbonates + carboxylic acids =
salt + H2O + CO2
- limewater to test if CO2 produced
- limewater to test if CO2 produced
- functional group COOH
Medienanhänge
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