If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
Increasing the concentraion the reaction rate increase.
Doubles it
Increasing the volume of the vessel at constant pressure will allow for more space for the reactant molecules to move, leading to more collisions and potentially increasing the rate of reaction. However, for gaseous reactions, increasing the volume can also decrease the pressure which may affect the reaction under specific conditions.
In most cases, increasing the temperature increases the rate of the reaction.
If the reaction occurs in the gas phase
The concentration of reactants is changed.
Increasing the temperature the reaction rate increase.
Increasing the concentraion the reaction rate increase.
Increasing the concentration of the reactants increases the rate of the reaction.
Doubles it
Increasing the volume of the vessel at constant pressure will allow for more space for the reactant molecules to move, leading to more collisions and potentially increasing the rate of reaction. However, for gaseous reactions, increasing the volume can also decrease the pressure which may affect the reaction under specific conditions.
The frequency of collisions is changed.
Generally increasing the temperature and concentration the reaction rate is higher.
if gases are involved in the reaction.
If the reaction occurs in the gas phase
try c :p
try c :p