null
US
Sign In
Sign Up for Free
Sign Up
We have detected that Javascript is not enabled in your browser. The dynamic nature of our site means that Javascript must be enabled to function properly. Please read our
terms and conditions
for more information.
Next up
Copy and Edit
You need to log in to complete this action!
Register for Free
2378292
Chemistry C1
Description
Mind Map on Chemistry C1, created by Phoebe Drew on 26/03/2015.
No tags specified
aqa
chemistry
c1
a level
Mind Map by
Phoebe Drew
, updated more than 1 year ago
More
Less
Created by
Phoebe Drew
over 9 years ago
253
20
0
Resource summary
Chemistry C1
Fundamental Ideas
Atoms Elements and Compounds
All substances are made from atoms
Element- Made from one type on atom
Chemical symbols represent atoms
Compound- Made from more than one element
Atomic Structure
Nucleus made up of protons and neutrons
Charge
Protons- Positive Neutrons- Neutral Electrons- Negative
Atoms have overall chrrge of 0
Atomic number is equal to the number of protons
Elements arranged on periodic table in order of proton number
Mass number is sum of protons and neutrons
So, Mass Number - Atomic Number = Number of Neutrons
Arrangement of Electrons in Atoms
Noble gases (Group 0) are very stable so are unreactive
Electrons are arragned in shells around the nucleus
Shell one holds 2 electrons, after that they hold 8
Shell one is closest to the nucleus
Electrons fill from shell one first
Elements in the same group have same number of electrons in their outer shell
Forming Bonds
Metals bond with non metals ionically
Ion- Charged particle
Formula of ionic compouds shows the ratio of ions
Non metals bond covalently to form molecules
Formula of a molecule shows that atoms in the molecule
Chemical Equations
During reactions, atoms get rearraged, but never created distroyed or changed
Mass of Reactants = Mass of Products
Word equations state the name of reactants and proucts, where as symbol equations give formulas
Symbol equations should always be balanced
Rocks and Building Materials
Limestone and its Uses
Limestone is Calcium Carbonate (CaCO₃)
Uses
Building material
To make calcium oxide
Cement
Concrete
Cement, aggregate, sand and water
Limestone decomposes when heated
Thermal Decomposition
Reactions of Carbonates
Metal carbonates decompose when heated to produce the metals oxide and carbon dioxide
Carbonate + Acid = Salt + Water + Carbon Dioxide
Carbon Dioxide turns Calcium Hydroxide (Lime Water) cloudy, by forming insoluble calcium carbonate
Limestone Reaction Cycle
1. Thermal decomposition of calcium carbonate to form calcium oxide and carbon dioxide
CaCO₃ -> CaO + CO₂
2. Hydration of calcium oxide to form calcium hydroxide
CaO + H₂O -> Ca(OH)₂
Calcium hydroxide is an alkali used to neutralise acids such as acidic soil
3. Dissolving of calcium hydroxide to form calcium hydroxide solution
Ca(OH)₂ + H₂O -> Ca(OH)₂ (aq)
4. Carbon dioxide added to form calcium carbonate precipitate
Ca(OH)₂ + CO₂ -> CaCO₃ + H₂O
Cement and Concrete
Cement is made by heating clay and limestone in a kiln
Product is then ground to a powder
Mortar is made by mixing cement sand and water
Concrete is made by mixing aggregate (small stones) into mortar
Limestone Issues
Quarrying and processing Limestone
Advantages
More employment and local job oppurtunities
Improved roads
Increased trade
Disadvantages
Dust and noise
More traffic
Loss of habitat
Metals and their Uses
Extracting Metals
Metals are usually found in the Earth's crust, often as compounds with other elements such as oxygen
Ore- Metal compound containing enough metal to make extracting it worth while
Unreactive metals are found in the Earth as the metal
Metal oxides, where the metal is less reactive than carbon, can be reduced using carbon
Irons and Steels
Iron oxides can be reduced in a blast furnace to produce iron
Blast furnace iron is too brittle to use
Most iron is converted into an alloy, steel
Steel contains calculated quantities of carbon and other elements
Aluminium and Titanium
Resist corrosion
Lower densities than other strong metals
Have to be extracted by electrolysis
Extraction is expensive due to the large amounts of energy needed
Extracting Copper
Most copper is extracted from ores by smelting
Copper is then purified by electrolysis
Copper rich ores are a limited resource so scientists are find new ways of sourcing copper
Phytomining- Using plants to absorb copper compounds, which are collected from the plant's ashes
Bioleaching- Uses bacteria to produce copper compound solutions
Copper can be extracted from solutions by displacement or electrolysis
Useful Metals
Central block of periodic table are the transition metals
Transition metals have useful properties such as being strong yet malleable
Most metals we use are alloys
Metallic Issues
Recycling saves energy and limited resources
Using metals in construction
Disadvantages
Uses limited resources
Can rust
More expensive than other materials
Advantages
Strong
Malleable
Ductile
Good conductors of heat and electricity
Crude Oils and Fuels
Fuels from Crude Oil
Crude oil is a mixture of many compounds
Distillation separates a mixture of liquids
Most of the compounds in crude oil are hydrocarbons- only contain hydrogen and carbon
Alkanes are saturated hydrocarbons, meaning there are as many hydrogen atoms as possible in the molecule
Fractional Distillation
Crude oil can be separated into fractions by fractional distillation
Properties of these fractions depend on molecule size
Fractions with lower boiling points are less viscous and more flammable
Burning Fuels
Burning hydrocarbons produces carbon dioxide and water
Burning hydrocarbons in a limited air supply causes incomplete combustion and may produce carbon monoxide and soot
When burnt sulphur compounds produce sulphur dioxide and nitrogen compounds form nitrogen oxides
Both can cause acid rain
Cleaner Fuels
Alternative Fuels
Products from Oil
Cracking Hydrocarbons
Making Polymers from Alkenes
New and Useful Polymers
Plastic Waste
Ethanol
Plant Oils
Extracting Vegetable Oil
Cooking with Vegetable Oil
Everyday Emulsions
Food Issues
Our Changing Planet
Structure of the Earth
Restless Earth
Earth's Atmosphere in the Past
Life on Earth
Gases in the Atmosphere
Carbon Dioxide in the Atmosphere
Show full summary
Hide full summary
Want to create your own
Mind Maps
for
free
with GoConqr?
Learn more
.
Similar
GCSE - AQA: C1.1 The Fundamental Ideas in Chemistry
Olly Okeniyi
Crude Oils and others quiz
Dale George
GCSE AQA Chemistry 1 Fuels & The Environment
Lilac Potato
Chemistry 6 Extracting Vegetable Oil Core GCSE AQA
Chloe Roberts
GCSE AQA Chemistry 2 Salts & Electrolysis
Lilac Potato
Chemistry paper 1 summary
Paige Louise
C1 Quiz
Leah Firmstone
Chemistry Module C1: Air Quality
James McConnell
Germany 1918-39
Cam Burke
Cells - Biology AQA B2.1.1
benadyl10
Organic Chemistry
Ella Wolf
Browse Library