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How does specific heat vary with temperature?

How does specific heat vary with temperature?

As the substance heats up, the average kinetic energy of the molecules increases. The collisions impart enough energy to allow rotation to occur. Rotation then contributes to the internal energy and raises the specific heat. The vibrational energy states are farther apart than the rotation energy states.

Does specific heat of gas change with temperature?

In general, the specific heat also depends on the temperature. The table below lists representative values of specific heat for various substances. Except for gases, the temperature and volume dependence of the specific heat of most substances is weak.

What is the specific heat of a diatomic gas?

The molar specific heat of a gas at constant pressure (Cp is the amount of heat required to raise the temperature of 1 mol of the gas by 1◦C at the constant pressure. Its value for monatomic ideal gas is 5R/2 and the value for diatomic ideal gas is 7R/2.

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Why do diatomic gases have a higher heat capacity?

Molar specific heat of a diatomic gas is greater than that of a monoatomic gas as a diatomic gas has more degree of freedom. In a monoatomic gas there can only be degree of freedom due to translational kinetic energy which can be in 3 planes x,y,z.

How do you find change in temperature from specific heat and mass?

When heat transfer is involved, use this formula: change in temperature = Q / cm to calculate the change in temperature from a specific amount of heat added. Q represents the heat added, c is the specific heat capacity of the substance you’re heating, and m is the mass of the substance you’re heating.

What is specific heat of a gas?

The specific heat of a gas at constant pressure is the amount of heat required to raise the temperature of one mole of a gas by unit temperature at constant pressure.

What is meant by specific heat of a gas?

The quantity of heat required to raise the temperature of a unit mass of gas through 1 K (or 1 °C) when its pressure is kept constant, is called its principal specific heat at constant pressure. It is denoted by cP. Its S.I.

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How specific heat capacity of monoatomic diatomic and polyatomic gases can be explained on the basis of law of equipartition of energy?

How specific heat capacity of mono atomic, diatomic and poly atomic gases can be explained on the basis of Law of equipartition of Energy? The molar specific heat of the gas at constant volume is given by Cμ=f2R where f is degree of freedom.

How specific heat capacity of monoatomic diatomic and poly atomic gases can be explained on the basis of law of equipartition of energy?

Monoatomic gases have no constrains, which means we have m=0. Since each atomic system has only one particle to consider, N=1. Therefore, f=3. Thus for such gases a known degree of freedom can help figuring out the specific molar heats and their ratios, which will obviously be decreasing with increasing atomicity.

What is the difference between monatomic and diatomic ideal gas?

Its value for monatomic ideal gas is 3R/2 and the value for diatomic ideal gas is 5R/2. The molar specific heat of a gas at constant pressure (Cp is the amount of heat required to raise the temperature of 1 mol of the gas by 1 C at the constant pressure. Its value for monatomic ideal gas is 5R/2 and the value for diatomic ideal gas is 7R/2.

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What is the specific heat ratio of an ideal gas?

constant. The specific heat ratio, (or), is a function of only and is greater than unity. An ideal gas with specific heats independent of temperature, and, is referred to as a perfect gas. For example, monatomic gases

What is the relation between specific heats and gas constant?

A relation that connects the specific heats , , and the gas constant is where the units depend on the mass considered. For a unit mass of gas, e.g., a kilogram, and would be the specific heats for one kilogram of gas and is as defined above. For one kmol of gas, the expression takes the form where…

What is the value of 3r2 for monatomic and diatomic gases?

Its value for monatomic ideal gas is 3R/2 and the value for diatomic ideal gas is 5R/2. The molar specific heat of a gas at constant pressure (Cpis the amount of heat required to raise the temperature of 1 mol of the gas by 1\C at the constant pressure. Its value for monatomic ideal gas is 5R/2 and the value for diatomic ideal gas is 7R/2.