The velocities of sound at the same temperature in two monoatomic gases of densities `rho_(1) and rho_(2)` are `v_(1) and v_(2)` respectively . If ` rho_(1)//rho_(2)=4`, then value of ` v_(1)//v_(2)` is

The velocities of sound at same temperature in two monoatomic gases densities rho_(1) and rho_(2) are v_(1) and v_(2) repectively , if (rho_(1))/(rho_(2)) = 4 , then the value of (v_(1))/(v_(2)) will be

v_(1) and v_(2) are the velocities of sound at the same temperature in two monoatomic gases of densities rho_(1) and rho_(2) respectively. If (rho_(1))/(rho_(2))=(1)/(4) then the ratio of velocities v_(1) and v_(2) is

A solid sphere having volume V and density rho floats at the interface of two immiscible liquids of densites rho_(1) and rho_(2) respectively. If rho_(1) lt rho lt rho_(2) , then the ratio of volume of the parts of the sphere in upper and lower liquid is

The light cone is in equilibrium under the action of hydrostatic forces of two liquids of densities rho_(1) and rho_(2) . Find rho_(1)//rho_(2) . Find rho_(1) and rho_(2) .

The velocities of sound in an ideal gas at temperature T_(1) and T_(2) K are found to be V_(1) and V_(2) respectively. If ther.m.s velocities of the molecules of the same gas at the same temperatures T_(1) and T_(2) are v_(1) and v_(2) respectively then

The velocities of sound in an ideal gas at temperature T_(1) and T_(2) K are found to be V_(1) and V_(2) respectively. If ther.m.s velocities of the molecules of the same gas at the same temperatures T_(1) and T_(2) are v_(1) and v_(2) respectively then

Equal masses of two substance of densities rho_(1) and rho_(2) are mixed together. What is the density of the mixture?

A solid uniform ball having volume V and density rho floats at the interface of two unmixible liquids as shown in Fig. 7(CF).7. The densities of the upper and lower liquids are rho_(1) and rho_(2) respectively, such that rho_(1) lt rho lt rho_(2) . What fractio9n of the volume of the ball will be in the lower liquid.

In the given pressure - temperature (P-T) diagram, the density of an ideal gas at point A and B are rho_0 and 3rho_0/2 respectively, then the value of X is

What is the significance of resistance ratio, rho_(300 K) // rho_(4.2K) ?