Calculate the speed of sound in oxygen from the following data. The mass of 22.4 litre of oxygen at STP `(T = 273 K and p = 1.0 xx 10^5N m^-2)` is 32 g, the molar heat capacity of oxygen at constant volume is `C_V= 2.5 R` and that at constant pressure is `C_p = 3.5 R.`

Calculate the ratio (C_p / C_v) of oxygen from the following data . Speed of sound in oxygen (= 32g mol^(-1)) and the gas constant (R = 8.3 J K ^(-1) mol^(-1)) .

The speed of sound in hydrogen at 0^@C is 1280 m s^(-1) . The density of hydrogen at STP is 0.089 kg m^(-3) . Calculate the molar heat capacities (C_p and C_v) of hydrogen.

0.32 g of oxygen is kept in a rigid container and is heated. Find the amount of heat needed to raise the temperature from 25^0 C to 35^0 C . The molar heat capacity of oxygen at constant volume is 20 J K^(-1) mol^(-1) .

A tank of volume 0.2 m^3 contains helium gas at a temperature of 300 K and pressure 1.0 xx 10^5 N m^(-2) . Find the amount of heat required to raise the temperature to 400 K . The molar heat capacity of helium at constant volume is 3.0 cal K^(-1 ) mol^(-1) . Neglect any expansion in the volume of tank.

Calculate the weight of the moon from the following data: The universal constant of gravitation G=6.67xx10^-11 N-m^2/kg^2 mass of the moon =7.36xx10^22 kg, mass of the earth =6xx10^24 kg and the distasnce between the earth and the moon=3.8xx10^5 km.

Calculate the root mean square speed of smoking practices of mass 5xx10^(-17) kg in their Brownian motion in air at S.T.P

Find the change in the volume of 1.0 litre kerosene when it is subjected to an extra pressure of 2.0xx 10^5 N m^-2 from the following data. Density of kerosene = 800 kg m^-3 and speed of sound in kerosene = 1330 m s^-1