A gas is enclosed in a cylindrical vessel fitted with a frictionless piston. The gas is slowly heated for some time. During the process, 10 J of heat is supplied and the piston is found to move out 10 cm. The area of cross-section of the cylinder `=4cm^2` and the atmospheric pressure `=100kPa`.

A gas is enclosed in a cylindrical vessel fitted with a frictionless piston.the gas is slowly heated for some time. During the process, 10 J of heat is supplied and the piston is found to move out 10cm. Find the increase in the internal energy of the gas, the area of cross section of the cylinder= 4 cm^(2) and the atmospheric pressure =100 kPa.

A gas is enclosed in a cylindrical vessel fitted with a frictionless piston.the gas is slowly heated for some time. During the process, 10 J of heat is supplied and the piston is found to move out 10cm. Find the increase in the internal energy of the gas, the area of cross section of the cylinder= 4 cm^(2) and the atmospheric pressure =100 kPa.

A gas is enclosed in a cylindrical vessel fitted with a frictionless piston.the gas is slowly heated for some time. During the process, 10 J of heat is suopplied and the piston is found to move out 10cm. Find the increase in the internal energy of the gas , the area of cross section of the gas, the area of cross section of the cylinder=4 cm^(4) and the atmospheric pressure =100 kPa.

In given figure, gas is slowely heated for sometime. During the process, the increases in internal energy of the gas is 10J and the piston is found to move out by 25cm , then find the amount of heat supplied. The area of cross-section of cylinder = 40cm^(2) and atmospheric pressure 100 kPa

In given figure, gas is slowely heated for sometime. During the process, the increases in internal energy of the gas is 10J and the piston is found to move out by 25cm , then find the amount of heat supplied. The area of cross-section of cylinder = 40cm^(2) and atmospheric pressure 100 kPa

Two moles of nitrogen gas is kept in a cylinder of cross-section area 10 cm^(3) . The cylinder is closed by a light frictionless piston. Now the gas is slowly heated such that the displacement of piston during process is 50cm , find the rise in temperature of gas when 200 J of heat is added in it. (Atmospheric pressure =100 kPa, R = 25//3 J//mol-K)

Two moles of nitrogen gas is kept in a cylinder of cross-section area 10 cm^(3) . The cylinder is closed by a light frictionless piston. Now the gas is slowly heated such that the displacement of piston during process is 50cm , find the rise in temperature of gas when 200 J of heat is added in it. (Atmospheric pressure =100 kPa, R = 25//3 J//mol-K)

The internal energy of monoatomic ideal gas is 1.5 nRT. One mole of helium is kept in cylinder of cross section 8.5cm^2 . The cylinder is closed by a light frictionless piston. The gas is heated slowly in a process during which a total of 42 J heat is given to the gas. If the temperature rises through 2^@C find the distance moved by the piston. Atmospheric pressure =100kPa

The internal energy of a monatomic ideal gas is 1.5 nRT. One mole of helium is kept in a cylinder of cross section 8.5 cm^(2) . The cylinder is closed by a light frictionless piston. The gas is heated slowly in a process during which a total of 42J heat is given to the gas. if the temperature rise through 2^(o)C , find the distance moved by the piston. atmoshphere pressure =100 kPa.

The internal energy of a monatomic ideal gas is 1.5 nRT. One mole of helium is kept in a cylinder of cross section 8.5 cm^(2) . The cylinder is closed by a light frictionless piston. The gas is heated slowly in a process during which a total of 42J heat is given to the gas. if the temperature rise through 2^(o)C , find the distance moved by the piston. atmoshphere pressure =100 kPa.