1968237
Description
Mind Map by 18ellisoli, updated more than 1 year ago
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Created by 18ellisoli
over 9 years ago
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Rates of Reaction and Energetics
- Endothermic
- Bring in heat from surroundings
- Measure: increase in temperature
- Measure: increase in temperature
- Make bonds
- Endothermic is posotive
- Reactions that convert heat energy to
chemical are called Endothermic
reactions
- Bring in heat from surroundings
- Exothermic
- gives out heat from the surroundings
- Measure: drop in temperature
- Measure: drop in temperature
- Break bonds
- Endothermic is negative
- Combustion is an example of exothermic reaction
- gives out heat from the surroundings
- Breaking and making bonds needs/uses energy
- Delta H= Reactants-Products
- Bond Energies
- The energy released when a
bond is formed or absorbed
when it is broken.
- The energy released when a
bond is formed or absorbed
when it is broken.
- Energy released= m x c x delta T
- Energy per gram= Energy released/mass of fuel burned
- Reactions occur when the rectant particles collide with each other
- The more
collisions between
reactants is a
given time, the
faster the rate
- Reaction rates can't be determined
by the amount of product per
second
- More energy=more likely to overcome activation energy.
- Effect of surface area=the larger
the surface area the more chance
that the particles will collide, so
the rate of reaction will increases.
- Soon all surface will have been reacted with so the
surface area soon becomes the limiting factor.
- This will be indicated by a line
flattening on a graph
- This will be indicated by a line
flattening on a graph
- Trend-as the surface area
increases so does the reaction
rate
- catalysts increases the rate of reaction
- They bring the particles together in the right
allignment
- A substance which increases the
rate of reaction without affecting
itself
- Neutralise-Nitrous oxide Carbon
monoxide and unreacted
hydrocarbons
- They bring the particles together in the right
allignment
- The more
collisions between
reactants is a
given time, the
faster the rate
- as the temperature increases, the number of
collisions between particles also increases. The
collisions will be more energetic , so overall the rate
of reaction increases.
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