Calculate the velocity of sound in air at STP by using (i) Newton equation (ii) Laplace's equation. The mass of 1 mole of air `=29.0 xx 10^(-3) kg?`

Estimate the speed of sound in air at standard temperature and pressure. The mass of 1 mole of air is 29.0xx10^(-3)kg , lambda for air =7//5 .

According to Newton's formula, the speed of sound in air at STP is (Take the mass of 1 mole of air is 29 xx 10^(-3) kg)

The planet Jupiter has an atmosphere of a mixture of ammonia and methane at a temperature -130^@C . Calculate the velocity of sound on this planet assuming gamma for mixture to be 1.3. Molar mass of the mixture is 1.65 xx 10^(-3)kg. R=8.3" J mol"^(-1) K^(-1) .

State Newton's formulas for velocity of sound in air. Point out the error and hence discuss Laplace's correction.

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

Show that the velocity of sound in air increases by 0.6 ms^(-1) for every 1^@C rise in temperature.

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 .

Given that the density of air is 1.6 times density of aqueous vapour. Calculate the velocity of sound in damped air containing 10% vapour by volume. Velocity of sound in dry air at the same temperature is 340ms^(-1) .

In Kundt's tube experiment the following observations : Length of the brass rod is 100cm, average length of loop in air is 10.3 cm and in carbon dioxide =8.0 cm. Calculate the velocity of sound in brass and in CO_2 . What is the frequency of the note? (Given the velocity of sound in air at the temperature of the experiment is 350m/s).