At `27^(@)C` a gas is compressed suddenly such that its pressure becomes `((1)/(8))` of original pressure. Find temperature will be `(gamma = (5)/(3))`

300K a gas (gamma = 5//3) is compressed adiabatically so that its pressure becomes 1//8 of the original pressure. The final temperature of the gas is :

An ideal gas at a pressure of 1 atm and temperature of 27^(@)C is compressed adiabatically until its pressure becomes 8 times the initial pressure , then final temperature is (gamma=(3)/(2))

A gas is compressed adiabatically till its pressure becomes 27 times its initial pressure. Calculate final temperature if initial temperature is 27^@ C and value of gamma is 3/2.

A gas is suddenly compressed to 1/4th of its original volume. Caculate the rise in temperature when original temperature is 27^(@)C. gamma= 1.5 .

An ideal gs at pressure P is adiabatically compressed so that its density becomes n times the initial vlaue The final pressure of the gas will be (gamma=(C_(P))/(C_(V)))

A monoatomic gas is enclosed in a non-conducting cylinder having a piston which can move freely. Suddenly gas is compressed to 1//8 of its initial volume. Find the final pressure and temperature if initial pressure and temperature are P_(0) and T_(0) respectively.

A monoatomic gas is enclosed in a nonconducting cylinder having a piston which can move freely. Suddenly gas is compressed to 1//8 of its initial volume. Find the final pressure and temperature if initial pressure and temperature are P_(0) and T_(0) respectively.

A rigid container contains 5 mole H_(2) gas at some pressure and temperature. The gas has been allowed to escape by simple process from the container due to which pressure of the gas becomes half of its initial pressure and temperature become (2//3)^(rd) of its initial. The mass of gas remaining is :

A fixed mass of an ideal gas is compressed in such a manner that its pressure and volume can be related as P^3V^3 = constant. During this process, temperature of the gas is.

At 27^(@)C and 8.0 atm pressure, the density of propene gas is :