Mammoth Chemistry Index
- A
- Acids
- Acids + bases = salt + water
- Acids, alkalis, bases and salts: an introduction
- Acids, alkalis, bases and salts: a summary
- Acids, alkalis, bases and salts for A level students or crazy people
- Acids and water
- Acids are proton donors
- A fractioning column for crude oil (used in fractional distillation)
- Alkanes
- Alkenes
- All acids contain hydrogen
- All ionic compounds are salts (1)
- All ionic compounds are salts (2)
- All salts are ionic compounds
- Aluminium and
hydrochloric acid - Aluminium and oxygen
- Aluminium and steam
- Ammonia
- Applications of oxide displacement reactions
- Atomic number
- Atomic number and mass number
- Atoms 1
- Atoms 2
- B
- Bases
- Be careful with moles
- Beginning with H
- Blast furnace
- Blast furnace formula basics
- But-
- Butane
- Butanol
- Butene
- C
- Calcium and
hydrochloric acid - Calcium and oxygen
- Calcium and water
- Calcium carbonate
- Cathode and anode (1)
- Cathode and anode (2)
- Cations and anions (1)
- Cations and anions (2)
- Chemical bonding: an introduction
- Chemical bonding: a summary
- Compounds
- Compounds containing di
- Compounds containing tri
- Compounds ending in -ide
- Copper and hydrochloric acid
- Copper and oxygen
- Covalent bonding (between non-metals)
- Covalent bonding (sharing)
- D
- Diatomic molecules
- Displacement from oxide or solution
- Displacement from solution
- Dissolve
- Dissolving Introduction
- Distillation
- Distillation: an explanation
- E
- Electrodes are normally inert
- Electrolysis: dissociate in liquid
- Electrolysis: useful definitions and helpful hints
- Electrolysis and water
- Electrolysis with different substances - example 1: NaCl and water
- Electrolysis with different substances - example 2: copper (ii) chloride
- Electrolyte = liquid
- Electron
- Electron shells
- Electron shells and 2, 8, 8
- Elements
- Elements and Mnemonics
- Elements ending in -ium
- Elements of the periodic table
- Eth-
- Ethane
- Ethanol
- Ethanol
- Ethene
- Examples of giant covalent structures
- Examples of ionic substances (1)
- Examples of mole questions in chemistry
- Examples of moles of gases
- Examples of simple covalent structures
- Exothermic and endothermic reactions
- Extracting iron
- Extracting metals from their ores
- F
- Fractional distillation: a summary
- Fractional distillation: part 1
- Fractional distillation: part 2
- Fractioning column for crude oil: condensing points and temperature
- G
- Giant covalent structures (think of diamond)
- Giant covalent structures: a summary
- Groups and periods
- Groups of the periodic table
- H
- H+ ions can't exist on their own
- Half equations
- How did electrolysis start: example 1
- How did electrolysis start: example 2
- How did electrolysis start: example 3
- How did electrolysis start: example 4
- How did electrolysis start?
- How is an acid formed?
- How to remember alcohols
- How to remember how a metal reacts with oxygen (or air)
- How to remember the hydrocarbons
- How to remember the hydrocarbons
- Hydrocarbons: an introduction
- Hydrochloric acid
- Hydrogen
- I
- Igneous rock
- Indicators and the pH scale
- Ionic bonding (1)
- Ionic bonding (1) (between metals and non-metals)
- Ionic bonding (1) (think of salt)
- Ionic bonding (1): a summary
- Ionic Bonding (2)
- Ionic Bonding (2) (think of salt)
- Ionic Bonding (2): a summary
- Ionic Bonding (2) Occurs between metals and non-metals
- Ions
- Iron and hydrochloric acid
- Iron and oxygen
- Iron and steam
- Iron oxide (rust)
- Isomers
- Isotopes
- L
- Lead and hydrochloric acid
- Lead and oxygen
- Limescale
- Lithium and oxygen
- Lithium and sulphuric acid
- Lithium and water
- Lithosphere
- M
- Magnesium and
hydrochloric acid - Magnesium and oxygen
- Magnesium and steam
- Magnesium and water
- Main elements of a blast furnace
- Mass number
- Maths percentages
- Metal + acid = salt + hydrogen
- Metal + acid = salt + hydrogen
- Metallic bonding (involves a "sea of electrons")
- Metallic bonding (think of copper)
- Metallic bonding: an explanation
- Metallic bonding: a summary
- Metal oxides are basic
- Metals below copper in the reactivity series
- Metamorphic rock
- Meth-
- Methane
- Methanol
- Methene
- Mixtures
- Molecules
- Molecules ending in -ite and -ate
- Moles
- Moles: worked examples
- Moles and maths
- Moles are a number
- Moles of ideal gases = 24 litres
- N
- Naming hydrocarbons
- Neutralisation (Chemistry)
- Neutrons
- Nitric acid
- O
- Oxidation and reduction
- P
- Potassium, sodium, lithium and calcium: reactions with steam
- Potassium and
hydrochloric acid
- Potassium and oxygen
- Potassium and water
- Products of electrolysis on salt water
- Prop-
- Propane
- Propanol
- Propene
- Properties of giant covalent structures
- Properties of ionic substances (1)
- Properties of metallic substances
- Properties of simple covalent structures
- Properties of the alkali metals
- Properties of the halogens
- Properties of the noble gases
- Properties of the transition metals
- Protons
- Protons and neutrons weigh 1/6 x 1023 grams
- R
- Reactions of gold and platinum
- Reactions of metals when heated in air
- Reactions with acid
- Reactions with steam: how you remember
- Reactions with water: how you remember
- Reactivity of halogens and alkali metals
- Redox reactions: reduction and oxidation
- Reduction and Oxidation of Hydrogen
- Reference periodic table
- Relative atomic mass and relative formula mass
- Relative mass of particles
- Remember Alcohols 1
- Remember Alcohols 2
- Remember a mole of an ideal gas = 24 litres volume at RTP
- Remembering the formula for slag
- Remembering the order of the fractions of crude oil
- Remembering the reactivity series of metals
- Remembering the reactivity series of metals Method 2
- Reversible reactions
- Rule 1: electrolysis and hydrogen
- Rule 2: electrolysis and halogens
- Rule 3: electroplating
- S
- Sedimentary rock
- Simple covalent structures (think of water)
- Simple covalent structures: a summary
- Sodium and
hydrochloric acid - Sodium and oxygen
- Sodium and water
- Sodium chloride (salt)
- Soluble
- Solute
- Solution
- Solvent
- Structure of an atom
- Sulphuric acid
- T
- Tectonic plates
- Testing acids and alkalis using universal indicator
- Testing for carbon dioxide
- Testing for hydrogen
- Testing for oxygen
- The definition of an ideal gas
- The first 20 elements and remembering them
- The fractional distillation of crude oil
- The history of the periodic table
- The periodic table has no charge
- The reactivity series - an introduction
- The reactivity series and electrolysis
- The reactivity series of metals
- Thermal decomposition
- Thermit reactions
- The rules of electrolysis
- The structure of the earth
- Tin and hydrochloric acid
- Tin and oxygen
- Titration
- U
- Universal indicator
- V
- Valency
- W
- Water is magical
- What do H+ ions do?
- What is electrolysis?
- What is the relationship between H+ ions and protons?
- What kind of structure does your substance have?
- Working out empirical formula
- Z
- Zinc and
hydrochloric acid - Zinc and oxygen
- Zinc and steam