Catalyst is the agent which alter the rat of chemical reactions.Catalyst is not consumed by the reaction as the other reactants.
those catalyst which increases or speed up the reaction are known as positive catalyst.
Those slows the reaction are known as negative catalyst.
Catalyst may act by decreasing activation energy of reaction or by choosing an alternate pathway for the reaction.
Catalyst for proteins
Enzymes
A catalyst functions to speed up a chemical reaction without being used up in the reaction, meaning that a catalyst can be used more than once.
Enzymes are a form of biological catalyst. They are proteins, and they help to accelerate biochemical processes.
Catalyst is the agent which alter the rate of chemical reactions. Catalyst are not consumed by the reaction as the other reactants. Those catalyst which increase or speed up the reaction are known as positive catalyst. Those who slow the reaction are known as negative catalyst.
This substance is called a catalyst.
Enzymes moderate chemical changes within an organism, and are usually essential to making metabolic functions occur at the proper rates.
Catalyst is not a reactant.
what is the purpose of catalyst in textile paint?
The substances which increase the rate of a chemical reaction are called a Positive Catalyst whereas The substances which decrease the rate of a chemical reaction are called Negative Catalyst. Positive Catalyst decreases the Activation energy of reactant molecules whereas negative catalyst increases the Activation energy of the reactant molecules. Positive Catalyst is also called the Promoter whereas negative catalyst is also called Inhibitor.
The difference between a homogeneous and a heterogeneous catalyst is that in a heterogeneous catalyst, it is in a different phase from the reactants. However, in a homogeneous catalyst, it is in the same phase as the reactants.
Sodium acetate is not a catalyst, but rather a salt that can act as a buffer or a reactant in chemical reactions. Sulfuric acid can act as a catalyst in certain reactions by providing a medium for proton transfer or dehydration reactions to occur more easily. Each compound has different functions in chemical reactions depending on the specific reaction conditions and mechanisms.