The change in internal energy of a gas kept in a closed container when 50 cal heat is supplied to it is

calculate the change in internal energy of a gas kept in a rigid container when 100 J of heat is supplied to it.

A cylinder contains 3 moles of oxygen at a temperature of 27^(@)C . The cylinder is provided with a frictionless piston which maintains a constant pressure of 1 atm on the gas. The gas is heated until its temperature rises to 127^(@)C . a. How much work is done by the gas in the process ? b. What is the change in the internal energy of the gas ? c. How much heat was supplied to the gas ? For oxygen C_(P) = 7.03 cal mol^(-1) .^(@)C^(-1) .

Calculate the increase in internal energy of system when 40 joule heat is supplied and the work done by a system is 8 joule

The internal energy of an ideal gas increases when it

Enthalpy change equal internal energy change when

In the given figure, an ideal gas changes its state from state state C by two paths ABC and AC. The internal energy of gas at A is 10 J and the amount of heat supplied to change its state to C through path AC is 200 J.Calculate the internal energy of gas at C

Figure shows an ideal gas changing its state A to state C by two different path ABC and AC . The internal energy of the gas at A is 10 J and the amount of heat supplied to change its state to C through the path AC is 200 J . Find the internal energy at C .

What will be the change in internal energy when 12 kJ of work is done on the system and 2 kJ of heat is given by the system?

In the given figure, an ideal gas changes it state from A to state C by two paths ABC and AC . (i) Find the path along which work done is the least. (ii) The internal energy of the gas at A to 10J and the amount of heat supplied to change its state to C through the path AC is 200J . Calculate the internal energy at C . (iii) The internal energy of the gas at state B is 30J . Find the amount of heat supplied to the gas to go from A to B .

The given figure shows a change of state A to state C by two paths ABC and AC for an ideal gas. Calculate. a. The path along which work done is least. b. The internal energy at C if the internal energy of gas at A is 10J and amount of heat supplied to change its state to C through the path AC is 200J . c. The amount of heat supplied to the gas to go from A to B , if internal energy of gas at state B is 10J .