The temperature of 4.50 mol of an ideal monatomic gas is raised 27.0 K at constant volume. What are (a) the work W done by the gas, (b) the energy transferred as heat Q. (c) the change `Delta E_( i n t) ` in the internal energy of the gas, and (d) the change `Delta `K in the average kinetic energy per atom?

Under constant pressure, the temperature of 3.00 mol of an ideal monatomic gas is raised 15.0 K. What are (a) the work W done by the gas, (b) the energy transferred as heat Q. (c) the change Delta E _( i n t ) in the internal energy of the gas, and (d) the change Delta K in the average kinetic energy per atom?

What is the internal energy of 2.0 mol of an ideal monatomic gas at 273 K?

Let Delta U_(1) and Delta U_(2) be the changes in internal energy of an ideal gas in the processes A and B then

the pressure of a gas change linearly with volume from 10kPa, 200 cc to 50 kPa, 50 cc. (a) calculate the work done by the gas, (b) what is the change in the internal energy of the gas ?

When an ideal diatomic gas is heated at constant pressure, its intenal energy is increased by 50cal then the work done by the gas is

Two moles of an ideal monatomic gas occupies a volume V at 27 °C. The gas expands adiabatically to a volume 2V. Calculate (i) the final temperature of the gas and (ii) change in its internal energy.

400 J of work is done on a gas to reduce its volume by compression adiabatically. What is the change in internal energy of the gas?