This page contains the detailed and easy notes for GCSE EDUQAS Chemistry Rate of chemical change and dynamic equilibrium for revision and understanding Rate of chemical change and dynamic equilibrium .
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GCSE EDUQAS Chemistry Rate of chemical change and dynamic equilibrium Complete Revision Summary
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Rate of chemical change and dynamic equilibrium
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For a reaction to take place, the three important things are required.
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FACTOR | EFFECT | EXPLANATIONS |
SURFACE AREA | With increase in surface area the rate of reaction increases Powdered reactants react faster. | Greater the surface area or surface area to volume ratio more particles will be exposed and reactants have greater chance of colliding increasing the rate of reaction. |
TEMPERATURE | With increase in temperature the reaction rate increases. | With increase in temperature; the particles gain kinetic energy They collide more frequency Greater the collision greater are the chances of successful collisions Also as the energy increases more particles have energy equal or greater than activation energy increasing the rate of a reaction |
CONCENTRATION OF REACTANTS | With increase in concentration of reactant the reaction rate Increases. | Increasing the concentration increases more particles in the given volume More the particles more the chance of collisions Greater the collision greater the chance of successful collision increasing the rate of the reaction. |
PRESSURE | With increase in pressure the rate of reaction of the gaseous reactants increases. | Increasing the pressure increases the rate of the reaction as there will be more particles in a lesser volume. So they bump into each other more increasing the rate of the reaction |
CATALYST | With the use of catalyst the rate of reaction increases. | Catalyst increases the rate of the reaction by providing the alternative route that works by lowering the activation energy. So there are more number of particles with energy equal to activation energy increasing the rate of the reaction. |
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Example
The catalysts help those reactions to carry out at a lower temperature which require very high temperature so saves us on energy and electricity costs.
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Reactions that proceed both in forward and reverse direction.
Eg – N2(g) + 3H2(g) ⇌ 2NH3(g)
At the start the concentration of the reactants decreases. The reactants decreases and the concentration of products start to increase.
A ⇌ B
There comes a point where concentration of reactants and the products are same as the rate of appearance of products and rate of disappearance of reactants is the same. That point is the equilibrium point.
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When the system in equilibrium is subject to a change, the equilibrium is moved to a direction to counteract the chance.
Concentration ⇌
N2(g) + 3H2(g) ⇌ 2NH3(g)
Forward direction ammonia is made in the reverse direction nitrogen and hydrogen are used up.
Add nitrogen Right
Add hydrogen Right
Add ammonia Left
Remove Ammonia Right
So in habers process nitrogen and hydrogen are continously added and unreacted are recycled and ammonia is removed as soon as it is formed.
Pressure
N2(g) + 3H2(g) ⇌ 2NH3(g)
EXOTHERMIC REACTION (Produces heat)
ENDOTHERMIC REACTION (Takes in heat)
Eg N2(g) + 3H2(g) ⇌ 2NH3(g)
ΔH = -93KJ/mol
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References:
BBC Bitesize
Wikipedia
Wikimedia Commons
Image Source:
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Make sure you have watched the above videos and are familiar with the key definations before trying these questions. It is also good to time yourself while doing these questions so that you can work on the speed as well.