At `10^5 Nm^(-2)` atmospheric pressure the density of air is `1.29 kg m^(-3)`.If `gamma=1.41` for air, calculate the speed of sound in air.

If the density of air at NTP is 1.293kg//m^(3) and gamma=1.41 , then the velocity of sound in air at NTP is :

If the density of air at NTP is 1.293kg//m^(3) and gamma=1.41 , then the velocity of sound in air at NTP is :

If the density of air at NTP is 1.293kg//m^(3) and gamma=1.41 , then the velocity of sound in air at NTP is :

Given the density of air is 1.29 kg m^(-3) . Then, the relative density of air is ________.

Given the density of air is 1.29 kg m^(-3) . Then, the relative density of air is ________.

Calculate the velocity of sound in air at NTP. The density of air at NTP is (1.29g)/(L) . Assume air to be diatomic with gamma=1.4 . Also calculate the velocity of sound in air at 27^@C .

Calculate the velocity of sound in air at NTP. The density of air at NTP is (1.29g)/(L) . Assume air to be diatomic with gamma=1.4 . Also calculate the velocity of sound in air at 27^@C .

Calculate the velocity of sound in air at NTP. The density of air at NTP is (1.29g)//(L) . Assume air to be diatomic with gamma=1.4 . Also calculate the velocity of sound in air at 27^@C .

Find the velocity of sound in air at NTP. The density of air is 1.29kgm^(-3), gamma for this is 1.42?