MTG NEET Physics
An ideal gas has a molar heat capacity at constant pressure = Cp 5/2 R. The gas is kept in a closed vessel of Volume 0.0083 m^3, at a temperature of 300 K and a pressure of 1.6 x 106 Nm-2. An amount 2.49 x 10^4 J of Heat energy is supplied to the gas. Calculate the final temperature and pressure to the gas
13
Sep
An ideal gas has a molar heat capacity at constant pressure = Cp 5/2 R. The gas is kept in a closed vessel of Volume 0.0083 m^3, at a temperature of 300 K and a pressure of 1.6 x 106 Nm-2. An amount 2.49 x 10^4 J of Heat energy is supplied to the gas. [...]
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An ideal gas has a molar heat capacity at constant pressure = Cp 5/2 R. The gas is kept in a closed vessel of Volume 0.0083 m^3 ,
at a temperature of 300 K and a pressure of 1.6 x 106 Nm-2. An amount 2.49 x 10^4 J of Heat energy is supplied to the gas. Calculate the final temperature and pressure to the gas ,
For a monatomic gas, the molar specific heat at constant pressure divided by the molar gas constant R is equal to
13
Sep
For a monatomic gas, the molar specific heat at constant pressure divided by the molar gas constant R is equal to For a monatomic gas the molar specific heat at constant pressure divided by the molar gas constant R is equal to September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG [...]
According to equipartition law of energy each particle in a system of particles have thermal energy E equal to
13
Sep
According to equipartition law of energy each particle in a system of particles have thermal energy E equal to According to equipartition law of energy each particle in a system of particles have thermal energy E equal to September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
If γ be the ratio of specific heats of a perfect gas, the number of degrees of freedom of a molecule of the gas is
13
Sep
If γ be the ratio of specific heats of a perfect gas, the number of degrees of freedom of a molecule of the gas is If γ be the ratio of specific heats of a perfect gas the number of degrees of freedom of a molecule of the gas is September 13, 2021 Category: Chapter [...]
For a gas molecule with 6 degrees of freedom the law of equipartition of energy gives the following relation between the molecular specific heat (CV) and gas constant (R)
13
Sep
For a gas molecule with 6 degrees of freedom the law of equipartition of energy gives the following relation between the molecular specific heat (CV) and gas constant (R) For a gas molecule with 6 degrees of freedom the law of equipartition of energy gives the following relation between the molecular specific heat (CV) and [...]
Two moles of oxygen is mixed with eight moles of helium. The effective specific heat of the mixture at constant volume is
13
Sep
Two moles of oxygen is mixed with eight moles of helium. The effective specific heat of the mixture at constant volume is Two moles of oxygen is mixed with eight moles of helium. The effective specific heat of the mixture at constant volume is September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG [...]
The total internal energy of one mole of rigid diatomic gas is
13
Sep
The total internal energy of one mole of rigid diatomic gas is The total internal energy of one mole of rigid diatomic gas is September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
The internal energy of one gram of helium at 100 K and one atmospheric pressure is
13
Sep
The internal energy of one gram of helium at 100 K and one atmospheric pressure is The internal energy of one gram of helium at 100 K and one atmospheric pressure is September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
One mole of a monoatomic gas is mixed with 3 moles of a diatomic gas. What is the molecular specific heat of the mixture at constant pressure?
13
Sep
One mole of a monoatomic gas is mixed with 3 moles of a diatomic gas. What is the molecular specific heat of the mixture at constant pressure? One mole of a monoatomic gas is mixed with 3 moles of a diatomic gas. What is the molecular specific heat of the mixture at constant pressure? September [...]
If the molecular weight of two gases are M1 and M2 , then at a temperature the ratio of root mean square velocity ν1 and ν2 will be
13
Sep
If the molecular weight of two gases are M1 and M2 , then at a temperature the ratio of root mean square velocity ν1 and ν2 will be If the molecular weight of two gases are M1 and M2 then at a temperature the ratio of root mean square velocity ν1 and ν2 will [...]