a catalyst can affect the rate of a reaction. speeding it up.
Catalysts are chemicals that alter the rate of a chemical reaction without being chemically changed themselves . However to alter the rate of the reaction , the catalysts need to come in contact with the reactant particles. Spreading out the catalyst increases its surface area , hence increases the chances of coming in contact with the reactant particles . So they are able to provide the reactant particles an alternative route with a lower activation energy for the reactant particles to collide and form the product .
Different reactions may require different catalysts. Catalysts are specific to certain reactions based on their mechanism and the chemical reactions involved. Different reactions have different activation energies and pathways, so they may require different catalysts to facilitate the reaction.
No, a catalyst cannot change the orientation of a reactant collision. Catalysts work by providing an alternate reaction pathway with lower activation energy, but they do not influence the orientation of reactant collisions. The orientation of reactant collisions is determined by the relative positions and orientations of the reacting molecules.
There are mainly two types of catalysts: homogeneous catalysts, which are in the same phase as the reactants, and heterogeneous catalysts, which are in a different phase. Homogeneous catalysts are usually dissolved in the same solvent as the reactants, while heterogeneous catalysts are typically solid catalysts in contact with the reactants.
Catalysts are never consumed in the reaction. that's what makes them catalyst! not a reactant. they increase the rate of reaction by lowering the activation energy for the reaction. One of the ways to do this by providing an alternative route for the reaction to follow.
Catalysts are chemicals that alter the rate of a chemical reaction without being chemically changed themselves . However to alter the rate of the reaction , the catalysts need to come in contact with the reactant particles. Spreading out the catalyst increases its surface area , hence increases the chances of coming in contact with the reactant particles . So they are able to provide the reactant particles an alternative route with a lower activation energy for the reactant particles to collide and form the product .
Different reactions may require different catalysts. Catalysts are specific to certain reactions based on their mechanism and the chemical reactions involved. Different reactions have different activation energies and pathways, so they may require different catalysts to facilitate the reaction.
no, but different weapons require different catalysts
You can add more of a solid reactant, you can add heat, or you can add a catalyst.
It is called a reactant. While catalysts participate in reaction dynamics, they are not permanently changed in the process.
No, a catalyst cannot change the orientation of a reactant collision. Catalysts work by providing an alternate reaction pathway with lower activation energy, but they do not influence the orientation of reactant collisions. The orientation of reactant collisions is determined by the relative positions and orientations of the reacting molecules.
There are mainly two types of catalysts: homogeneous catalysts, which are in the same phase as the reactants, and heterogeneous catalysts, which are in a different phase. Homogeneous catalysts are usually dissolved in the same solvent as the reactants, while heterogeneous catalysts are typically solid catalysts in contact with the reactants.
The speed at which a reactant will change to a product is proportional to its concentration. This relationship is described by the rate law of the reaction. Changes in other factors, such as temperature and the presence of catalysts, can also affect the reaction rate.
The two important classes of catalysts are homogeneous catalysts, which are in the same phase as the reactants, and heterogeneous catalysts, which are in a different phase from the reactants. Each class has its own advantages and applications depending on the specific reaction and conditions.
Catalysts are never consumed in the reaction. that's what makes them catalyst! not a reactant. they increase the rate of reaction by lowering the activation energy for the reaction. One of the ways to do this by providing an alternative route for the reaction to follow.
A reactant is consumed in a reaction to make products. A catalyst is not consumed during the reaction. It is either not directly involved in the reaction or regenerated upon the end of the reaction. This is the main difference. In addition, catalysts work by decreasing the activation energy for the reaction, allowing the reactants to react more easily.
It varies due to the application of the polymer. For example, ethylene polymerization uses Cobalt as a catalyst. But other reactions for different final products require different catalysts, due to a difference in activation energy, and final properties desired.