Question:

A gas is compressed adiabatically till its temperature is doubled. The ratio of his final volume to its initial volume will be

Updated On: Jul 12, 2022

between $ \frac{3}{2} $ and 2
$ \frac{1}{2} $
more than $ \frac{1}{2} $
less than $ \frac{1}{2} $

Hide Solution

Verified By Collegedunia

The Correct Option is D

Solution and Explanation

Using the relation. $ {{T}_{1}}{{V}_{1}}^{\gamma -1}={{T}_{2}}V_{2}^{\gamma -1} $ $ \frac{{{V}_{2}}}{V}={{\left( \frac{{{T}_{1}}}{{{T}_{2}}} \right)}^{1-\gamma }}={{\left( \frac{{{T}_{1}}}{2{{T}_{1}}} \right)}^{1-\gamma }} $ Or $ \frac{1}{{{(2)}^{1-\gamma }}}>\frac{1}{2} $

Was this answer helpful?

Top Questions on kinetic theory

The equation for the RMS velocity is given as \[ v_{\text{rms}} = \sqrt{\frac{3RT}{M_0}} \] where $ R $ is the gas constant, $ T $ is the temperature, and $ M_0 $ is the molecular mass. If the temperature is increased, find the new RMS velocity $ v_{\text{rms}} $ when the temperature is doubled.}
- MHT CET - 2025
- Physics
- kinetic theory
View Solution
A cubical box of side 1 m contains Boron gas at a pressure of 100 Nm$^{-2}$. During an observation time of 1 second, an atom travelling with the rms speed parallel to one of the edges of the cube, was found to make 500 hits with a particular wall, without any collision with other atoms. The total mass of gas in the box in gram is:
- COMEDK UGET - 2024
- Physics
- kinetic theory
View Solution
Consider a rope fixed at both ends under tension so that it is horizontal (i.e. assume the rope is along x-axis, with gravity acting along z-axis). Now the right end is continually oscillated at high frequency n (say n=100 Hz) horizontally and in a direction along the rope; amplitude of oscillation is negligible. The oscillation travells along the rope and is reflected at the left end.
Let the total length of rope be l, total mass be m and the acceleration due to gravity be g.
After initial phase (say a mintue or so), the rope has __(BLANK-1)__ wave, which is __(BLANK-2)__ in nature. It results from superposition of left travelling and right travelling __(BLANK-3)__ waves. This resulting wave has a frequency __ (BLANK-4)_ that of oscillation frequency nu. Simple dimensional analysis indicates that the frequency of can be of the form: ___(BLANK-5)__ .
- IIITH UGEE - 2024
- Physics
- kinetic theory
View Solution
At which temperature will the r.m.s. velocity of a hydrogen molecule be equal to that of an oxygen molecule at $ 47^\circ \text{C} $?
- MHT CET - 2024
- Physics
- kinetic theory
View Solution
If $ n $ is the number density and $ d $ is the diameter of the molecule, then the average distance covered by a molecule between two successive collisions (i.e., mean free path) is represented by:
- MHT CET - 2024
- Physics
- kinetic theory
View Solution

View More Questions

Notes on kinetic theory

Kinetic Theory Physics
Stefan Boltzmann Constant Physics
Properties of Gases Physics
Inelastic Collision Physics
Mean Free Path Definition Formula Derivation Examples Physics
Value of Boltzmann Constant Physics