How many degress of freedom have the gas molecules, if under standard conditions the gas density is `rho = 1.3 kg//m^3` and velocity of sound propagation o it is `v = 330m//s` ?

How many degrees of freedom have the gas molecules, if under standard conditions the gas density is 1.3 kg m^(-3) and the velocity of sound propagation in it is C=330 m s^(-1) .

What is the degree of freedom of gas? If at STP, the velocity of sound in it is 330 m/s, gas density = 1.3 mg/ cm^3

Due to point isotropic sound source, the intensity at a point is observed as 40 dB. The density of air is rho=((15)/(11))(kg)/(m^3) and velocity of sound in air is 330(m)/(s) . Based on this information answer the following questions. Q. The ratio of displacement amplitude of wave at observation point to wavelength of sound waves is

Due to point isotropic sound source, theintensity at a point is observed as 40 dB. The density of air is rho=((15)/(11))(kg)/(m^3) and velocity of sound in air is 330(m)/(s) . Based on this information answer the following questions. Q. The ratio of displacement amplitude of wave at observation point to wavelength of sound waves is

Due to point isotropic sound source, theintensity at a point is observed as 40 dB. The density of air is rho=((15)/(11))(kg)/(m^3) and velocity of sound in air is 330(m)/(s) . Based on this information answer the following questions. Q. The pressure amplitude at the observation point is

Due to point isotropic sound source, theintensity at a point is observed as 40 dB. The density of air is rho=((15)/(11))(kg)/(m^3) and velocity of sound in air is 330(m)/(s) . Based on this information answer the following questions. Q. The pressure amplitude at the observation point is

The root mean square velocity of gas molecules of 0^(@)C will be if at N.T.P. its density is 1.43 kg/ m^(3)

Calculate the total number of degress of freedom possessed by the molecules in one cm^3 of H_2 gas at NTP .