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

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 10 kJ of heat at constant volume and its temperature rises from 27^(@)C to 37^(@)C . The value of Delta U 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 10kJ of heat at constant volume and its temperature rises from 27^(0)C " to " 37^(0)C . The ΔE of reaction is

A system absorbs 10 kJ of heat at constant pressure and its temperature rises from 27^@C to 37^@C in vacuum. The DeltaU of reaction is

A system absorbs 10 kJ of heat at contant volume and its temperature riess from 27^@C to 37^@C . The triangleU of reaction is:

One mole of a gas absorbs 500J of heat at constant volume. If its temperature is raised from 25^(@)C to 35^(@)C , the q,W and Delta E are

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

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