The specific heat of argon at constant valume is `0.075 kcal kg^(-1) K^(-1)`. Calculate its atomic weight. `Take R = 2 cal mol^(-1) K^(-1)`.

The specific heat of argon at constant volume is 0.075 kcal kg^(-1) K^(-1) . Calculate its atomic weight. Take R = 2 cal mol^(-1) K^(-1) .

The specific heat of helium at constant volume is 12.6 Jmol^(-1)K^(-1). The specific heat of helium at constant pressure in Jmol^(-1)K^(-1) is about (Assume the temperature of the gas is moderate, universal gas constant, R=8.314 J mol^(-1)K^(-1)

The specific heat of a monoatomic gas at constant pressure is 248.2 J kg^(-1)K^(-1) and at constant volume it is 149.0 J kg^(-1) K^(-1) . Find the mean molar mass of the gas.

Specific heat of argon at constant pressure is 0.125 cal.g^(-1) K^(-1) , and at constant volume 0.075 cal.g^(-1)K^(-1) . Calculate the density of argon at N.T.P. Given J = 4.18 xx 10^(7)" erg "cal^(-1) and normal pressure = 1.01 xx 10^(6)" dyne "cm^(-2) .

The specific heat of oxygen gas at constant volume is 0.155 cal cdot g^(-1) cdot^(@)C^(-1) . What is its specific heat at constant pressure? Given, the molecular mass of oxygen = 32 and R = 2 cal cdot mol^(-1) cdot^(@)C^(-1) .

The molar specific heat of a gas at constant volume is 12307.69 J kg^(-1) K^(-1) . If the ratio of the two specific heats is 1.65, calculate the difference between the two molar specific heats of gas.

The mass of a gas molecule can be computed form the specific heat at constant volume. Take C_(V) = 0.075 kcal kg^(-1) k^(-1) for argon and calculate a. the mass of an argon atom b. the atomic weight of argon.

The mass of a gas molecule can be computed form the specific heat at constant volume. Take C_(V) = 0.075 kcal kg^(-1) k^(-1) for argon and calculate a. the mass of an argon atom b. the atomic weight of argon.