chem p2 summary

Created by

Anoushka naik

Cards (90)

Rate of reaction 
How quickly a reaction happens
Mean rate 
The rate could be changing over the time you measure, but this is true for any measurement over time
Experiment to measure rate of reaction
1. Reacting hydrochloric acid and sodium thiosulfate in a conical flask
2. Measuring the time until the solution becomes cloudy
3. Repeating at different temperatures
As temperature increases 
The time taken for the reaction decreases
Experiment to measure rate of reaction
1. Using a gas syringe to measure the volume of gas produced
2. Plotting a graph with quantity on y-axis and time on x-axis
3. Drawing a tangent to find the rate at any point
Ways to increase the rate of a reaction
Increasing the concentration of reactants
Increasing the pressure of gas reactants
Increasing the surface area of solid reactants
Increasing temperature
Adding a catalyst
Reversible reactions 
Reactions where the products can return to the original reactants
Equilibrium 
The point where the rates of the forward and reverse reactions are equal, so there is no overall change
Increasing pressure
Favours the forward reaction in a reversible reaction
Increasing temperature 
Favours the endothermic (reverse) reaction in a reversible reaction
In a reversible reaction, if the forward reaction is exothermic, the reverse reaction must be endothermic
Crude oil is the result of plankton being buried under water a long time ago
Hydrocarbons 
Molecules made up of only carbon and hydrogen atoms
Alkanes 
Hydrocarbons with single covalent bonds, with the general formula CnH2n+2
Alkane names
Methane (1 carbon)
Ethane (2 carbons)
Propane (3 carbons)
Butane (4 carbons)
Pentane (5 carbons)
Hexane (6 carbons)
Fractional distillation of crude oil
1. Heating to evaporate
2. Fractions condense at different heights in the column due to different boiling points
3. Collecting the different fractions
Crude oil fractions
LPG (up to 4 carbons)
Petrol
Kerosene
Diesel oil
Heavy fuel oil
Viscosity 
How thick and gloopy a liquid is
Longer alkane fractions have higher viscosity
Shorter alkane fractions are more flammable
Alkenes
Hydrocarbons with a carbon-carbon double bond
Unsaturated
Having a carbon-carbon double bond
Testing for alkenes 
1. Adding bromine water
2. Colourless solution indicates the presence of an alkene
Cracking
Breaking down longer alkanes into shorter alkanes and alkenes
Catalytic cracking
Using a temperature of around 550°C and a zeolite catalyst
Steam cracking 
Using a temperature over 800°C with no catalyst
Alcohols 
Organic compounds with an -OH functional group
Reactions of alcohols 
1. Combustion to produce CO2 and H2O
2. Reaction with sodium to produce sodium alkoxide and hydrogen
Carboxylic acids
Organic compounds with a -COOH functional group
Addition polymerisation 
Joining together monomers with a double bond
Condensation polymerisation 
Joining together monomers with two functional groups, producing water as a by-product
Amino acids 
Organic compounds with both an amino (-NH2) and a carboxyl (-COOH) group
DNA 
A large molecule that stores genetic code, made from two polymers of nucleotides
Starch and cellulose 
Natural polymers made from glucose monomers
Melting point and boiling point 
Tests to determine if a substance is pure
Formulation 
A mixture designed for a specific purpose, with carefully controlled quantities of different substances
Chromatography 
A technique for separating the components of a mixture
DNA 
It's made from two polymers that spiral around each other in a double helix and it's made from four different monomers called nucleotides
Starch 
A natural polymer where the monomer is glucose
Cellulose 
A polymer that's made from beta glucose