The rate of a reaction A doubles on increasing the temperature from 300 to 310 K. By how much, the temperature of reaction B should be increased from 300 K so that rate doubles if activation energy of the reaction B is twice to that of reaction A
When the temperature of a reaction is raised from 300 K to 310 K, the reaction rate doubles. Determine the activation energy , E_(a) associated with the reaction.
The rate of the chemical reaction doubles for an increase of 10K in absolute temperature from 300K . Calculate E_(a) .
The rate of the chemical reaction doubles for an increase of 10K in absolute temperature from 298K. Calculate Ea.
The rate of a reaction increases by 2.5 times when the temperature is raised from 300K to 310K. If K is the rate constant at 310 K will be equal to
The rates of most reactions double when their temperature is raised from 298 K to 308 K. Calculate their activation energy.
If temperature of black body increases from 300K to 900K , then the rate of energy radiation increases by
On icreasing temperature from 200 K to 220 K rate of reaction A increases by 3 times and rate of reaction B increases by 9 times then correct relationship between activation energy of A and B is
