The activation energy is lower and the reaction rate increase.
A catalyst lowers the activation energy of a reaction.
A catalyst increases the reverse rate of the reaction
a catalyst has no effect in chemical reaction. it only increases or decreases the rate of the chemical reaction.
In chemistry it is called a catalyst. Enzymes decrease the activation energy needed to start a reaction.
Yes, catalysts lower the activation energy of a reaction by providing a different mechanism.
It lowers activation energy requirements.
catalyst decreases the activation energy of a chemical reaction, thereby increasing the effective collisions and hence the rate of the chemical reaction
Yes, it is a Quick Effect, so is spell speed 2, which means it can be chained to a monster effect activation. Effect Veiler will resolve first and the activated monster's effect will be negated when it tries to resolve.
A catalyst decreases the activation energy of a chemical reaction.
When Magical Citadel of Endymion is initially activated, it has no Spell Counters. This is because its effect of obtaining Spell Counters does not take place until it has been successfully activated. Therefore, it does not gain a Spell Counter from its own activation.
Adding a catalyst will make the reaction happen faster because the catalyst makes the Activation Energy (the energy required for the reaction to take place) to lower. Meaning more molecules can acquire this lower number of energy. A chemical reaction that involves a catalyst is a special type. A catalyst, in a given chemical reaction, is something that is both an input *and* an output of the reaction equation. What that means, practically, is that a small amount of catalyst is enough to process any amount of the other inputs. (More catalyst means that a given amount will be processed faster.)
a catalyst lowers the activation energy for both the forward and reverse reaction. however, it does not change the potential energy of the reactants or products. it also does not affect the heat of reaction (delta h)