An ideal gas is expended adiabatically then

When an ideal gas is compressed adiabatically and reversibly, the final temperature is:

When an ideal gas is compressed adiabatically , its temperature rises the molecules on the average have more energy than before. The kinetic energy increases,

When an ideal gas is compressed adiabatically , its temperature rises the molecules on the average have more energy than before. The kinetic energy increases,

A diatomic ideal gas is compressed adiabatically to 1/32 of its initial volume. If the initial temperature of the gas is T_i (in Kelvin) and the final temperature is a T_i , the value of a is

When a gas expands adiabatically

A one mole of an ideal gas expands adiabatically ato constant pressure such that its temperature Tpropto (1)/(sqrt(V)) .The value of the adiabatic constant gas is

When 1 mole of an ideal monoatomic gas is compressed adiabatically the internal energy change involved is 24 cals. The temperature rise (in kelwin) is

One mole of an ideal gas (C_(v,m)=(5)/(2)R) at 300 K and 5 atm is expanded adiabatically to a final pressure of 2 atm against a constant pressure of 2 atm. Final temperature of the gas is :

An ideal gas undergoing adiabatic change has the following pressure-temperature relationship

A : The specific heat of an ideal gas is zero in an adiabatic process. R : Specific heat of a gas is process independent.