Degree of Freedom given Molar Heat Capacity at Constant Pressure Solution

STEP 0: Pre-Calculation Summary
Formula Used
Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/(Molar Specific Heat Capacity at Constant Pressure-[R]))-1)
F = 2/((Cp/(Cp-[R]))-1)
This formula uses 1 Constants, 2 Variables
Constants Used
[R] - Universal gas constant Value Taken As 8.31446261815324
Variables Used
Degree of Freedom - Degree of Freedom is an independent physical parameter in the formal description of the state of a physical system.
Molar Specific Heat Capacity at Constant Pressure - (Measured in Joule Per Kelvin Per Mole) - Molar Specific Heat Capacity at Constant Pressure of a gas is the amount of heat required to raise the temperature of 1 mol of the gas by 1 °C at the constant pressure.
STEP 1: Convert Input(s) to Base Unit
Molar Specific Heat Capacity at Constant Pressure: 122 Joule Per Kelvin Per Mole --> 122 Joule Per Kelvin Per Mole No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
F = 2/((Cp/(Cp-[R]))-1) --> 2/((122/(122-[R]))-1)
Evaluating ... ...
F = 27.3464546304252
STEP 3: Convert Result to Output's Unit
27.3464546304252 --> No Conversion Required
FINAL ANSWER
27.3464546304252 27.34645 <-- Degree of Freedom
(Calculation completed in 00.004 seconds)

Credits

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University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA
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6 Degree of Freedom Calculators

Degree of Freedom given Molar Heat Capacity at Constant Pressure
Go Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/(Molar Specific Heat Capacity at Constant Pressure-[R]))-1)
Degree of Freedom given Molar Heat Capacity at Constant Volume
Go Degree of Freedom = 2/(((Molar Specific Heat Capacity at Constant Volume+[R])/Molar Specific Heat Capacity at Constant Volume)-1)
Degree of Freedom given Molar Heat Capacity at Constant Volume and Pressure
Go Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/Molar Specific Heat Capacity at Constant Volume)-1)
Degree of Freedom given Ratio of Molar Heat Capacity
Go Degree of Freedom = 2/(Ratio of Molar Heat Capacity-1)
Degree of Freedom in Non-Linear Molecule
Go Degree of Freedom = (6*Atomicity)-6
Degree of Freedom in Linear Molecule
Go Degree of Freedom = (6*Atomicity)-5

Degree of Freedom given Molar Heat Capacity at Constant Pressure Formula

Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/(Molar Specific Heat Capacity at Constant Pressure-[R]))-1)
F = 2/((Cp/(Cp-[R]))-1)

What is the statement of Equipartition Theorem?

The original concept of equipartition was that the total kinetic energy of a system is shared equally among all of its independent parts, on the average, once the system has reached thermal equilibrium. Equipartition also makes quantitative predictions for these energies. The key point is that the kinetic energy is quadratic in the velocity. The equipartition theorem shows that in thermal equilibrium, any degree of freedom (such as a component of the position or velocity of a particle) which appears only quadratically in the energy has an average energy of ​1⁄2kBT and therefore contributes ​1⁄2kB to the system's heat capacity.

How to Calculate Degree of Freedom given Molar Heat Capacity at Constant Pressure?

Degree of Freedom given Molar Heat Capacity at Constant Pressure calculator uses Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/(Molar Specific Heat Capacity at Constant Pressure-[R]))-1) to calculate the Degree of Freedom, The Degree of Freedom given Molar Heat Capacity at Constant Pressure is the number of variables required to describe the motion of a particle completely. Degree of Freedom is denoted by F symbol.

How to calculate Degree of Freedom given Molar Heat Capacity at Constant Pressure using this online calculator? To use this online calculator for Degree of Freedom given Molar Heat Capacity at Constant Pressure, enter Molar Specific Heat Capacity at Constant Pressure (Cp) and hit the calculate button. Here is how the Degree of Freedom given Molar Heat Capacity at Constant Pressure calculation can be explained with given input values -> 27.34645 = 2/((122/(122-[R]))-1).

FAQ

What is Degree of Freedom given Molar Heat Capacity at Constant Pressure?
The Degree of Freedom given Molar Heat Capacity at Constant Pressure is the number of variables required to describe the motion of a particle completely and is represented as F = 2/((Cp/(Cp-[R]))-1) or Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/(Molar Specific Heat Capacity at Constant Pressure-[R]))-1). Molar Specific Heat Capacity at Constant Pressure of a gas is the amount of heat required to raise the temperature of 1 mol of the gas by 1 °C at the constant pressure.
How to calculate Degree of Freedom given Molar Heat Capacity at Constant Pressure?
The Degree of Freedom given Molar Heat Capacity at Constant Pressure is the number of variables required to describe the motion of a particle completely is calculated using Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/(Molar Specific Heat Capacity at Constant Pressure-[R]))-1). To calculate Degree of Freedom given Molar Heat Capacity at Constant Pressure, you need Molar Specific Heat Capacity at Constant Pressure (Cp). With our tool, you need to enter the respective value for Molar Specific Heat Capacity at Constant Pressure and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Degree of Freedom?
In this formula, Degree of Freedom uses Molar Specific Heat Capacity at Constant Pressure. We can use 5 other way(s) to calculate the same, which is/are as follows -
  • Degree of Freedom = 2/(Ratio of Molar Heat Capacity-1)
  • Degree of Freedom = (6*Atomicity)-5
  • Degree of Freedom = (6*Atomicity)-6
  • Degree of Freedom = 2/((Molar Specific Heat Capacity at Constant Pressure/Molar Specific Heat Capacity at Constant Volume)-1)
  • Degree of Freedom = 2/(((Molar Specific Heat Capacity at Constant Volume+[R])/Molar Specific Heat Capacity at Constant Volume)-1)
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