A catalyst is a substance that can speed up a reaction without being involved in the reaction. A catalyst is therefore often used to speed up a reaction.
These are often used in the production of chemicals since very few are needed for a long time to keep a reaction going fast (they do not change during the reaction, and therefore can be reused).
An inhibitor does the opposite - it slows down the reaction and is not involved in the reaction.
These are often used in foods and anti rust products to slow foods from rotting and the process of oxidation (rusting), respectively.
Catalysts speed up chemical reactions by lowering the activation energy required for the reaction to occur. Inhibitors, on the other hand, slow down or prevent chemical reactions by interfering with the reaction mechanism. Both catalysts and inhibitors play crucial roles in controlling the rate and extent of chemical reactions.
Such chemicals are called as catalysts. Example:- Nickel metal is widely used as a catalyst.
they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells. they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells.
Negative catalysts (inhibitors) are those substances (or factors) which slow down the chemical reactions by decreasing the required activation energy for the reaction, for example the decomposition of Hydrogen peroxide may be slow down by adding a small amount of Glycerin in it.
Increase in Surface area,Increase in temperature,Increase in concentration,and the presence of catalysts or inhibitors.
The activity levels of compounds can be affected by factors such as temperature, concentration, pH, solvent polarity, and the presence of catalysts or inhibitors. These factors can influence the rate of reactions, solubility, and stability of compounds.
Inhibitors slow down chemical reactions. Catalysts speed up reactions.
they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells. they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells.
They're catalysts like enzimes, but they're not actually enzymes, which are proteic.
they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells. they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells.
they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells. they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells.
they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells. they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells.
Such chemicals are called as catalysts. Example:- Nickel metal is widely used as a catalyst.
they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells. they both speed up chemical reations. catalysts work by lowering a reation's activation energy.enzymes speed up a chemical reactions that take place in cells.
Negative catalysts (inhibitors) are those substances (or factors) which slow down the chemical reactions by decreasing the required activation energy for the reaction, for example the decomposition of Hydrogen peroxide may be slow down by adding a small amount of Glycerin in it.
Increase in Surface area,Increase in temperature,Increase in concentration,and the presence of catalysts or inhibitors.
increase in surface area, increase in temperature, increase the concentration of the reactants, and the presence of catalysts or inhibitors.
The activity levels of compounds can be affected by factors such as temperature, concentration, pH, solvent polarity, and the presence of catalysts or inhibitors. These factors can influence the rate of reactions, solubility, and stability of compounds.