Speed of sound in a gas at constant temperature depends on

If a gas expands at constant temperature

The speed of sound in hydrogen gas at certain temperature is v (m)/(s) Find the speed of sound in a gaseous mixture containing 2 moles of oxygen and 1 mole of hydrogen gas, at the same temperature. Assume the gases do no react at the ordinary temperature.

Velocity of sound in a gaseous medium at constant temperature is independent of

(A): According to Laplace the propagation of sound in air is an adiabatic process. (B): Pressure has no effect on velocity of sound in a gas as long as temperature remains constant. (C): The velocity of sound in air changes by 0.61 m/s when temperature changes by 1^(@)C

The speed of sound in a particular gas at a temperature 27""^(@)C is 340 m/s. Then, the speed of sound in the same gas at a temperature 90""^(@)C is:

Graph between speed v of sound in air and pressure P at a constant temperature is given by

There is no change in internal energy for an ideal gas at constant temperature. Internal energy of an ideal gas is a function of temperature only.

The speed of sound in oxygen (O_2) at a certain temperature is 460ms^-1 . The speed of sound in helium (He) at the same temperature will be (assume both gases to be ideal)

How does the speed of sound in air vary with temperature ?

The bulk modulus of an ideal gas at constant temperature