A gas expands such that its initial and final temperature are equal . Also, the process followed by the gas traces a straight line on the `P-V` diagram:-

A gas expands such that its initial and final temperatures are equal. Also the process followed by the gas traces a straight line on the P-V diagram (i) The temperature of the gas remains constant throughout (ii) The temperature of the gas first increases and then decreases (iii) The temperature of the gas first decreases and then increases (iv) The straight line has negative slope

One mole of an ideal gas is expanded from the state A(P_(0), V_(0)) to final state B having volume V. The process follows a path represented by a straight line on the P–V diagram (see figure). Up to what volume (V) the gas shall be expanded so that final temperature is half the maximum temperature during the process.

The work done by the gas in the process shown in given P-V diagram is

A quantity of an ideal monoatomic gas consists of n moles initially at temperature T_(1) ,The pressure and volume are then slowly doubled in such a manner so as to trace out a straight line on a P-V diagram.For this process,the ratio (W)/(nRT_(1)) is equal to (where W is work done by the gas):

An ideal mono atomic gas is at temperature T_(0) . The pressure and volume are quasi-statically doubled such that the process traces a straight line on the PV diagram. (a) Calculate the heat absorbed by the gas in the process if number of moles of the gas in the sample is n. (b) Calculate the average molar specific heat capacity of the gas for the process.

A gas take part in two thermal processes in which it is heated from the same initial state to the same final temperature. The processes are shown on the P-V diagram by straight lines 1 rarr 3 and 1 rarr 2

A gas take part in two thermal processes in which it is heated from the same initial state to the same final temperature. The processes are shown on the P-V diagram by straight lines 1 rarr 3 and 1 rarr 2

An ideal gas is expanded adiabatically at an initial temperature of 300 K so that its volume is doubled. The final temperature of the hydrogen gas is lambda=1.40)