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Mind Map by Deleted user, updated more than 1 year ago
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Created by Sarah McLean
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Copied by abipailing
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Copied by Tariq hudda
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AS-Level Chemistry Module 2 - OCR A
- Atoms and Moles
- The Atom
- Structure
- Protons, Neutrons, Electrons
- Protons, Neutrons, Electrons
- Nuclear Symbols
- Mass number
- Atomic Number
- Mass number
- Atoms and Ions
- Positive or Negative Charge
- Positive or Negative Charge
- Isoptoes
- Same number of
protons, different
number of neutrons
- Same number of
protons, different
number of neutrons
- Structure
- Atomic Models
- JJ Thomson
- Plum Pudding Model
- Plum Pudding Model
- Rutherford's Model
- Gold Foil Experiment
- Gold Foil Experiment
- Bohr's Model
- Four basic principles
- Four basic principles
- JJ Thomson
- Relative Mass
- Atomic Mass
- Calculating
- Calculating
- Isotopic Mass
- Molecular Mass
- Formula Mass
- Atomic Mass
- The Mole
- What is a mole?
- Molar Mass
- Calculations
- What is a mole?
- Gas Volumes
- Gas Volume
- Ideal Gas Equation
- pV=nRT
- pV=nRT
- Gas Volume
- Concentration Calculations
- Moles and Concentration
- n=cxV(dm3)
- n=cxV(dm3)
- Moles and Concentration
- The Atom
- Formulas and Equations
- Formulas
- Empirical and
molecular
formulas
- Empirical and
molecular
formulas
- Calculating Formulas
- Empirical formula
- Experimental data
- Percentage
compositions
- Experimental data
- Molecular
formula
- Empirical formula
- Chemical Equations
- Balancing equations
- Ionic Equations
- Balancing equations
- Equations and Calculations
- Calculating masses
- Gas volumes
- State symbols
- Calculating masses
- Formulas of Ionic Compounds
- Formation of ions
- Formulas
- Formation of ions
- Formulas
- Reactions and Calculations
- Acids, Bases and Salts
- What are they?
- Strength
of acids
and
bases
- Reactions
- Acid-base reactions
- Acids and Oxides
- Acid and metal oxides
- Acid and metal hydroxides
- Acids and carbonates
- Acid-base reactions
- What are they?
- Anhydrous and Hydrous Salts
- What are they?
- Finding the formula of hydrated salts
- What are they?
- Titrations
- Performing titrations
- Indicators
- Practical Techniques
- Measuring masses
- Volumes of solutions
- Measuring masses
- Standard Solutions
- Preparing solutions
- Calculations
- Preparing solutions
- Performing titrations
- Titrations Calculatons
- Calculating concentration
- Polyprotic acids
- Calculating volumes
- Calculating concentration
- Chemical Yield
- Theoretical yield
- Percentage yield
- Theoretical yield
- Atom Economy
- What is it?
- Calculating it
- Addition and substitution reactions
- Atom economy and percentage yield
- Atom economy in industry
- What is it?
- Oxidation Number
- Finding
- From formulas
- From systematic names
- From formulas
- Assigning
- Using
- Working out systematic names
- Working out formulas
- Working out systematic names
- Finding
- Redox Reactions
- What are they?
- Changing oxidation numbers
- Reactions with dilute acids and metals
- What are they?
- Acids, Bases and Salts
- Electrons, Bonding and Structure
- Electronic Structure
- Electron Shells
- Sub-shells
- s-shells
- 2 electrons, 1 orbital
- 2 electrons, 1 orbital
- p-shells
- 6 electrons, 3 orbitals
- 6 electrons, 3 orbitals
- d-shells
- 10 electrons, 5 orbitals
- 10 electrons, 5 orbitals
- f-shells
- 14 electrons, 7 orbitals
- 14 electrons, 7 orbitals
- s-shells
- Shells
- 1st shell
- 2 electrons
- 2 electrons
- 2nd Shell
- 8 electrons
- 8 electrons
- 3rd shell
- 18 electrons
- 18 electrons
- 4th shell
- 32 shells
- 32 shells
- 1st shell
- Sub-shells
- Orbitals
- s-sub shells are spherical
- p-sub shells are dumb-bell
- s-sub shells are spherical
- Electron
Configurations
- Sub-shell notation
- Electrons in boxes
- Energy Level Diagrams
- Sub-shell notation
- Electron Shells
- Ionic Bonding
- Oppositely
charged ions are
attracted together
- Ionic compound forms
- Overall charge is 0
- Overall charge is 0
- Ionic compound forms
- Dot and Cross
diagrams
- Giant Ionic Lattices
- Regular shape
- Attracted to
oppositely charged
ions in all directions
- Regular shape
- Behaviour of Compounds
- Electrical Conductivity
- Conduct when
molten or
dissolved
- Conduct when
molten or
dissolved
- Melting and boiling points
- High
- Strong
electrostatic
forces
- Strong
electrostatic
forces
- High
- Solubility
- Dissolves in water
- Dissolves in water
- Electrical Conductivity
- Oppositely
charged ions are
attracted together
- Shapes of Molecules
- Linear
- Berylium
Chloride/Carbon Doixide
- 180 degrees
- Berylium
Chloride/Carbon Doixide
- Trigonal Planar
- 120 degrees
- Boron Triflouride
- 120 degrees
- Tetrahedral
- 109.5 degrees
- Methane, Ammonium ion
- 109.5 degrees
- Trigonal Pyramidal
- Ammonia
- 107 degrees
- Ammonia
- Non-linear
- 104.5 degrees
- Water
- 104.5 degrees
- Trigonal bipyramidal
- Phosphorous Pentachloride
- 120, 90 degrees
- Phosphorous Pentachloride
- Octahedral
- 90 degrees
- Sulphur hexaflouride
- 90 degrees
- Linear
- Polarisation
- Electronegativity
- Polar and non-polar bonds
- Polar molecules
- Predicting bond types
- Electronegativity
- Intermolecular Forces
- Induced
dipole-dipole
interactions
- Permanent
dipole-dipole
interactions
- Hydrogen Bonding
- Behaviour of
simple covalent
compounds
- Electrical
Conductivity
- Melting and
boiling points
- Solubility
- Electrical
Conductivity
- Trends in
melting and
boiling points
- Induced
dipole-dipole
interactions
- Covalent Bonding
- Molecules
- Non-metals
- Share electrons, each
atom gets 8 electrons in
their outer shell
- Non-metals
- Dot and cross
- Single,
Double and
triple bonds
- Single,
Double and
triple bonds
- Dative covalent
- 1 atom provides
both shared
electrons
- 1 atom provides
both shared
electrons
- Special Cases
- Boron Triflouride
- Sulphur Hexaflouride
- Boron Triflouride
- Covalent bond strength
- Average bond enthalpy
- Average bond enthalpy
- Molecules
- Electronic Structure
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