When the gas is ideal and process is isothermal, then

When an ideal gas is compressed isothermally then its pressure increase because:

An ideal gas undergoes a cyclic process, in which one process is isochoric, one process is isothermal and one process is adiabatic. During the isothermal process, 40 J heat is released by the gas, and during the isochoric process, 80 J heat is absorbed by the gas. if work done by the gas during adiabatic process is W_(1) and during isothermal process is W_(2) then the magnitude of (W_(1))/(W_(2)) will be equal to:

For an isothermal process

An ideal gas system undergoes an isothermal process, then the work done during the process is

Assertion: For an ideal gas in a cyclic process and in an isothermal process change in internal energy is zero. Reason: In both processes there is no change in temperature.

Calculate the workdone taking place when an ideal gas undergoes isothermal expansion.

An ideal diatomic gas undergoes a thermodynamic process as shown in the P-V diagram. The process AB is isochoric while the process BC is isothermal. The total heat gein to the gas in the process is nearly (use ln 2=0.7 )

One mole of an ideal monoatomic gas undergoes a cyclic process as shown in figure . Temperature at point 1 = 300K and process 2-3 is isothermal . . Net work done by gas in complete cycle is

An ideal monoatomic gas of one mole undergoes a cyclic process ADBCA as shown in figure. X and Y are two isothermal curves at temperature 211^(@)C and 127^(@)C respectively. If the work done by the gas in cyclic process is lambdaR , then find the value of lambda . (R is the gas constant)

In an isothermal process