The following graphs shows two isotherms for a fixed mass of an ideal gas. Find the ratio of r.m.s speed of the molecules at tempertaures `T_(1)` and `T_(2)`?

The following graphs shows two isothermal process for a fixed mass of an ideal gas. Find the ratio of r.m.s speed of the molecules at temperatures T_(1) and T_(2) ?

Figure shows the isotherms of a fixed mass of an ideal gas at three temperatures T_(A) , T_(B) and T_(C) , then

Define average speed and r.m.s. speed of a gas molecule.

A rod AB of mass m is hung by two ideal threads. Find the ratio of tensions in the two threads ((T_(1))/(T_(2))) .

Explain why the speed of sound through a gas cannot be greater than the r.m.s. speed of the molecules of the gas.

The ratio of rms speed of an ideal gas molecules at pressure p to that at pressure 2p is

s-t graph of two particles A and B are shown in fig. Find the ratio of velocity of A to velocity of B.

r.m.s speed of ideal gas at 127^(@)C is 200m//s the rms. Speed of same ideal gas at temperature 227^(@)C is

The density (rho) versus pressure (P) graphs of a given mass of an ideal gas is shown at two temperatures T_(1) and T_(2) . Then relation between T_(1) and T_2 may be

Shows a vessel partitioned by a fixed diathermoc separator. Different ideal gases are filled in the two parts. The rms speed of the molecules in the left part . The rms speed of the molecules in the right part. Calculate the ratio of the mass of a molecule in the left part to the mass of a molecule in thej right part.