Yes
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
For a second-order reaction, the rate of reaction is proportional to the square of the concentration of the reactant. Therefore, to achieve a tenfold increase in the reaction rate, the concentration must be increased by a factor of √10 (approximately 3.16). This is because if the concentration is increased by this factor, the rate will increase by (√10)² = 10.
A gas and a gas
Increasing the concentration of reactants can increase the product rate by providing more molecules for the reaction to occur. Additionally, optimizing reaction conditions such as temperature, pH, and pressure can also increase the rate of product formation by favoring the reaction kinetics.
It leads to more frequent collisions, which increase reaction rate.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
It increases the kinetic energy of the molecules (APEX)
Factors that can increase the rate of a chemical reaction include increasing the temperature, concentration of reactants, or pressure, as well as the presence of catalysts. These factors provide more kinetic energy for molecules to collide and react, leading to a faster reaction rate.
Increasing the temperature the dissolving rate increase.
try c :p
try c :p
Increasing the temperature of the reactants can increase the rate of the chemical reaction.
The movement of molecules and collisions are increased at high temperature.
As temperature increase the speed and energy of molecules increase and the collisions are more probable.
1. Increase the temp 2. Increase surface area 3. Increase the pressure of the system
A gas and a gas