An increase of 10 K in temperature rarely doubles the kinetic energy of the particles but this increase in temperature may be enough to double the reaction rate. Explain.

An increase in temperature of 10 K rarely doubles the kinetic energy of the particles and hence the number of collisions is not doubled. Yet, this temperature increase may be enough to double the rate of a slow reaction. How can be this explained?

If the temperature of the sun is doubled, the rate of energy received on earth will be increased by a factor

Calculate the activation energy of a reaction whose reaction rate at 310 K gets doubled for 10 K rise in temperature.

Calculate the activation energy of a reaction whose reaction rate at 300k gets doubled for 10^@ rise in temperature.

For every 10 K rise in temperature , the rate of a reaction becomes double. If temperature is increased from 303K to 353K , then the rate of the reaction at 353K compared to 303K will be -

For increasing temperature from 300K to 320K the rate of reaction increases by 4 times calculate energy of activation for that reaction.