A gas and a gas
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
Increasing pressure generally increases reaction rate for gaseous reactions because it increases the frequency of collisions between molecules. However, for reactions involving only solids or liquids, changes in pressure typically have no effect on the reaction rate.
You could increase the reaction rate by raising the temperature, adding a catalyst to lower the activation energy, or increasing the pressure in the system if it involves gases. Additionally, you may consider optimizing pH levels, stirring the reaction mixture to increase contact between reactants, or using enzymes to speed up the reaction.
The explanation is: increasing the pressure is equal to an increasing of concentration of reactants.In a concentrated environment the possibility of interactions between molecules is higher.And the consequence of more collisions is the increasing of reaction rate.
Possible actions:- stirring- heating- increase of the acid concentration- fine grinding of calcium carbonate- increasing the pressure
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
try c :p
try c :p
Increasing the temperature of the reactants can increase the rate of the chemical reaction.
Increasing the pressure would increase the yield of sulfur trioxide because the reaction involves a decrease in volume. Decreasing the pressure would decrease the yield of sulfur trioxide because the reaction volume would increase.
The concentration of reactants is changed.
Increasing pressure generally increases reaction rate for gaseous reactions because it increases the frequency of collisions between molecules. However, for reactions involving only solids or liquids, changes in pressure typically have no effect on the reaction rate.
Increasing the molarity of CuSO4 would likely increase the rate of the reaction. This is because a higher molarity means there are more CuSO4 particles available to react with other substances, leading to more collisions and a faster reaction.
You could increase the reaction rate by raising the temperature, adding a catalyst to lower the activation energy, or increasing the pressure in the system if it involves gases. Additionally, you may consider optimizing pH levels, stirring the reaction mixture to increase contact between reactants, or using enzymes to speed up the reaction.
The explanation is: increasing the pressure is equal to an increasing of concentration of reactants.In a concentrated environment the possibility of interactions between molecules is higher.And the consequence of more collisions is the increasing of reaction rate.
raising the temperature of the reactants, by increasing their surface area, by increasing the concentration of reactants, by stirring the reactants, or by adding a catalytic agent can increase reaction rates
Increasing the temperature the reaction rate increase.