If heat of 110 J is added to a gaseous system, the increase in internal energy is 40 J. Then the amount of extcrnal workdone is______.

When 110J of heat is supplied to a gaseous system, the internal energy of the system increase by 40J. The amount of external work done (in J) is

In the adiabatic expansion : the change of 10 mol of a gas’s internal energy is 100 J. What is the amout of its workdone?

In an adiabatic expansion, the change in internal energy of 10 mol of a gas is 100 J. What is the amount of work done by the gas?

P*V Work done by an ideal gaseous system at constant volume is (E is internal energy of the system)-

The temperature of 10 g nitrogen gas is increased from 20^(@)C to 120^(@)C (ii) at constant pressure. Find out the amount of heat supplied, increase in internal energy and external work done in the case. For nitrogen c_(v) = 0.177 cal cdot g^(-1) cdot^(@)C^(-1) and c_(p) = 0.248 cal cdot g^(-1) cdot^(@)C^(-1) .

The temperature of 10 g nitrogen gas is increased from 20^(@)C to 120^(@)C (i) at constant volume. Find out the amount of heat supplied, increase in internal energy and external work done in the case. For nitrogen c_(v) = 0.177 cal cdot g^(-1) cdot^(@)C^(-1) and c_(p) = 0.248 cal cdot g^(-1) cdot^(@)C^(-1) .

An amount of work w is done by the system and q amount of heat is supplied to the system. By which the following relations the change in internal energy of the system can be expressed-

An amount of work w is done by a system and q amount of heat is supplied to the system . By which of the following relations the change in internal energy of the system can be expressed ?

(i) The pressure and temperature of 0.8 g of He gas are 1 atm and 298 K respectively. If 400 J of heat is applied to the gas at constant volume, what will be change in internal energy and the final temperature of the gas ? (ii) If the same amount of heat is applied to the gas at constant pressure, then what will be the change in internal energy and the final temperature of the gas ? For both the cases, assume He gas behaves ideally and its C_(V)=(3)/(2)R .

(i) Show that heat of reaction at constant volume is equal to the change in internal energy of the system. (ii) Show that heat of reaction at constant pressure is equal to the change in enthalpy of the system.