The reaction will not occur unless the activation energy is met.
The reaction will not occur unless the activation energy is met.
no influence
The reaction will not occur unless the activation energy is met.
Activation energy is the energy required by a reaction for the reaction to occur. The catalyst lowers the activation energy, making it easier for the reaction to happen.Improvement:A catalyst don't lowers the activation energy. A catalyst creates a alternative route (*) for the same reaction with a lower activation energy.* = as a result of the interaction of the reagents with the catalyst.
The activation energy is reduced.
A catalyst changes the reaction mechanism to one with a lower activation energy; activation energy is lowered when a catalyst is added
Catalysts doesn't affect the energy of reactions
The reaction will not occur unless the activation energy is met.
as activation energy decreases, reaction will finish faster (length of reaction decreases)
Activation energy is the energy required by a reaction for the reaction to occur. The catalyst lowers the activation energy, making it easier for the reaction to happen.Improvement:A catalyst don't lowers the activation energy. A catalyst creates a alternative route (*) for the same reaction with a lower activation energy.* = as a result of the interaction of the reagents with the catalyst.
Changes in temperature and activation energy have opposite effects on reaction rate.
yes. lowers it.
The activation energy is reduced.
Changes in temperature and activation energy have opposite effects on reaction rate.
A chemical reaction need an activation energy to start.
An exergonic reaction is activation energy (or energy of activation). An endergonic reaction is essentially the opposite of an exergonic reaction.
There is no straight forward relation between enzyme and activation energy because although energy of reaction is fixed and is governed by laws of chemistry but for biochemical reactions concentration of enzyme and conc. of substrate affect rate of reaction and energy, but in general enzymes decrease activation energy of reaction.
It lowers it, so the reaction is faster.
It lowers it, so the reaction is faster.