A system absorbs 10kJ of heat at constant volume and its temperature rises from `27^(@)C " to" 37^(@)C`. The `Delta E` of reaction is

A system absorbs 10kJ of heat at constant volume and its temperature rises from 27^(0)C " to " 37^(0)C . The DE of reaction is

A system absorbs 100J of heat at constant volume and its temperature raises from 300K to 320K, Calculate the change in internal energy.

The heat of reaction at constant volume and temperature is represented by

In a zero-order reaction for every 10^(@) rise of temperature, the rate is doubled. If the temperature is increased from 10^(@)C to 100^(@)C . The rate of the reaction will become

2 kg of air is heated at constant volume. The temperature of air is increased from 293 K to 313K. If the specific heat of air at constant volume is 0.718 k. j//kg K , find the amount of heat absorbed in kj and kcal ( J=4.2 KJ// Kcal)

For a particular reaction, the rate constant becomes double on increasing temperature from 27^(@)C to 37^(@)C. Calculate the approximate activation energy (in kcal mol^(1) R = 2 cal mol^(-1)K^(-1))