Ch8 Rates and Equilibrium Flashcards
mean rate of reaction
quantity of reactant used/ time taken
quantity of product formed/ time taken
5 Factors affecting rate of chemical reaction
pressure of reacting gases SA of solid reactants temperature presence of catalysts concentration of reactants in solution
collision theory
For a reaction to take place, particles have to collide with enough energy to cause it(proportional)
Activation energy
minimum amount of energy particles must have before they can react
increasing chance of particles reacting
increasing frequency of reacting particles colliding
Increasing the energy particles have when they collide
Increasing amount of energy is more effective than increasing frequency of collisions
the effect of temperature
After heating particles, energy is transferred to the particles. This makes particles move faster which increases the frequency of collisions
Particles have more energy than the activation energy, meaning more successful collisions take place
the effect of concentration
increased concentration means they are more particles moving around in the same volume of solution
this increases the frequency of collisions
the effect of pressure
an increase in pressure squashes the gas particles closer together
more particles of gas in a given volume
increases the frequency of collisions
catalyst
substance that increases the rate of reaction
doesn’t chemically change the reaction(can be re-used) and isn’t used up
different reaction need different catalysts
effect of catalysts
provides a different pathway for the reaction that has a lower activation energy
frequency of effective collisions increase
effect of SA of reactants
the larger the SA:V ratio, the more particles are exposed to the other reactant
There is a greater chance of particles colliding, which increases rate of reaction
reversible reaction representation
A + B ⇌ C + D
reversible reaction
products can react together to re- make the original reactants
example of reversible reaction
ammonia chloride ⇌ ammonia + hydrogen chloride
energy changes in a reversible reaction
Same amount of energy is transferred in both directions(energy cannot be created or destroyed in a chemical reaction)
If the reactions is endothermic in one direction, it is exothermic in the other
Example of energy change in a reversible reaction
hydrated copper sulphate ⇌ anhydrous copper sulphate + water
endothermic forwards
exothermic backwards
Dynamic equilibrium
The rate of forwards reactions equals the rate of the reverse reactions
Le Chatelier’s principle
If a system is at equilibrium and a change is made to any of the conditions, the position of equilibrium shifts to cancel out the change(re-establish equilibrium)
Importance of Le Chatelier’s principle
industrial chemists need to find the conditions that give as much product as possible in as short a time as possible
If forward reaction is endothermic, what happens if the temperature of a system at equilibrium is increased
the amount of products formed is increased
If forward reaction is exothermic, what happens if the temperature of a system at equilibrium is increased
the amount of products formed is decreased
If the forward reaction produces more molecules of gas, an increase in pressure does what
decreases the amount of products formed
If the forward reaction produces less molecules of gas, an increase in pressure does what
increases the amount of products formed
