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Mindmap von FaultyHammer, aktualisiert more than 1 year ago
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Erstellt von FaultyHammer
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Chemistry 2
- 2A - Bonding and Calculations
- Bonding
- Ionic
- Transferring electrons
- Ionic compounds have...
- High melting point
- When molten, there are FREE ELECTRONS
- Conducts electricity when in solution, but not when solid
- Conducts electricity when in solution, but not when solid
- When molten, there are FREE ELECTRONS
- Regular lattice structure
- Strong attraction between ions
- High melting point
- Transferring electrons
- Covalent
- Share electrons
- Each covalent bond provides
each atom with one extra
electron
- Each covalent bond provides
each atom with one extra
electron
- EXAMPLES
- Water (H20)
- HYDROGEN (H2)
- AMMONIA (NH3)
- Water (H20)
- TWO TYPES
- Molecular substances
- STRONG bonds to form SMALL molecules
- WEAK attraction between molecules
- LOW melting point
- EXAMPLE: Oxygen
- STRONG bonds to form SMALL molecules
- Giant structures
- ALL atoms bonded together by STRONG bonds
- HIGH Melting points
- DON'T conduct electicity
- EXAMPLE: Diamond
- ALL atoms bonded together by STRONG bonds
- Molecular substances
- Share electrons
- Ionic
- Materials
- ALLOYS - Different
sized atoms displace
layers of metal atoms,
meaning they cant
slide over eachother,
making allows harder
than normal metals.
- METALLIC STRUCTURES
- Free electrons
- Regular structure
- Free electrons
- Nanoparticles
- Fullerens (Bucky Balls)
- Made of carbon
atoms
- Made of carbon
atoms
- Nanotubes
- Fullerens (Bucky Balls)
- Polymers
- Strong covalent
bonds hold the atoms
together in chains
- Thermosoftening - No cross linking
chains, weak attraction between
chain, easy to melt and can be
remoulded as many times as you like
- Thermosetting -
Crosslinks between the
chains, holding them
together in solid
structure. Tough, hard
and rigid
- Strong covalent
bonds hold the atoms
together in chains
- ALLOYS - Different
sized atoms displace
layers of metal atoms,
meaning they cant
slide over eachother,
making allows harder
than normal metals.
- Atoms!
- TOP number is Atomic Mass
- BOTTOM number is number of protons
- ISOTOPES are atoms with THE SAME
amount on protons, and DIFFERENT
amounts of neutrons
- RELATIVE FORMULA
MASS is all the relative
atomic masses of all
the atoms in that
compound added
together
- TOP number is Atomic Mass
- Bonding
- 2B - Reaction Rates, Salts and Electrolysis
- Measuring ROR
- Amount of reactant used
or amount of product
formed DIVIDED BY time
- Precipitation -
When a solution
becomes cloudy -
the faster it
becomes cloudy,
that faster the
ROR
- Change in mass (usually gas given off) - Do
your gassy reaction on some scales, the
faster the mass drops, the faster the
reaction, this is very accurate and easy to
measure
- Volume of gas given off -
Measured by a gas syringe,
the more gas given off in a
given amount of time, the
faster the reaction.
- Amount of reactant used
or amount of product
formed DIVIDED BY time
- Collision Theory
- Higher temperature, concentration and surface
area increase the number of collisions between
particles, speeding up the rate of reaction
- Higher temperature, concentration and surface
area increase the number of collisions between
particles, speeding up the rate of reaction
- Catalysts
- A catalyst is a substance which
speeds up a reaction without being
changed or used up in the reaction.
- These can reduce costs in industry!
- A catalyst is a substance which
speeds up a reaction without being
changed or used up in the reaction.
- Energy Transfer in Reactions
- Exothermic releases heat
- Combustion
- Neutralisation
reactions (acid and
alkali)
- Combustion
- Endothermic takes in heat
- Much less common
- Thermal decomposition, eg heat
must be added to make calcium
carbonate decompose to make
quicklime CaCO3 --> CaO + CO2
- Much less common
- Exothermic releases heat
- Acids and Alkalis
- Acids and Bases neutralise eachother
- Metal Oxides and Hydroxides are bases
- Metal Oxides and Hydroxides are bases
- Alkali is a base that dissolves in water
- Acid + Base = Salt + Water
- Acid + Metal = Salt + Hydrogen
- Acids and Bases neutralise eachother
- Electrolysis
- "Splitting up with electricity"
- Passing current through
ionic solution splits up
the ions, positive ions
going to the Cathode,
and negative ions
going to the Anode.
- PANIC - Positive Anode, Negative Is Cathode
- REDUCTION is the GAIN of electrons
- OXIDATION is the LOSS of electrons
- OIL RIG - Oxidation Is Loss, Reduction Is Gain
- Reduction happens on the Cathode
- Oxidation happens on the Anode
- Reduction happens on the Cathode
- OIL RIG - Oxidation Is Loss, Reduction Is Gain
- OXIDATION is the LOSS of electrons
- Used to extract Aluminium from its ore
- Cryolite is used to lower the temperature (and the costs)
- Electroplating
- Replace the cathode with something to
be electroplated, and is will be coated in
a layer of the metal ions in the
electrolyte
- Used with Silver (jewellery)
- Used with Copper (Electronics)
- Replace the cathode with something to
be electroplated, and is will be coated in
a layer of the metal ions in the
electrolyte
- "Splitting up with electricity"
- ROR depends on 4 Things
- Temperature
- Concentration
- Catalyst
- Surface area
- Temperature
- Measuring ROR
- KEY
- ROR - Rate of Reaction
- EXAMPLE
- Ar - Atomic Mass
- Mr - Formula mass
- IMPORTANT
- ROR - Rate of Reaction
- Calculations
- % mass of an element
in a compound
- Ar MULTIPLIED BY No. of atoms (of the element)
THEN DIVIDE BY Mr (Of whole compound )
THEN MULTIPLY BY 100
- Ar MULTIPLIED BY No. of atoms (of the element)
THEN DIVIDE BY Mr (Of whole compound )
THEN MULTIPLY BY 100
- Empirical Formula
- Look it up, it wont fit into this mind map...
- Look it up, it wont fit into this mind map...
- Percentage yield =
Actual yield DIVIDED
BY predicted yield
- % mass of an element
in a compound
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