Temperature using Gibbs Free Energy, Enthalpy and Entropy Calculator

✖Enthalpy is the thermodynamic quantity equivalent to the total heat content of a system.ⓘ Enthalpy [H]			+10% -10%
✖Gibbs Free Energy is a thermodynamic potential that can be used to calculate the maximum of reversible work that may be performed by a thermodynamic system at a constant temperature and pressure.ⓘ Gibbs Free Energy [G]			+10% -10%
✖Entropy is the measure of a system’s thermal energy per unit temperature that is unavailable for doing useful work.ⓘ Entropy [S]			+10% -10%

✖Temperature is the degree or intensity of heat present in a substance or object.ⓘ Temperature using Gibbs Free Energy, Enthalpy and Entropy [T]

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Temperature using Gibbs Free Energy, Enthalpy and Entropy Solution

STEP 0: Pre-Calculation Summary

Formula Used

Temperature = modulus((Enthalpy-Gibbs Free Energy)/Entropy)
T = modulus((H-G)/S)
This formula uses 1 Functions, 4 Variables

Functions Used

modulus - Modulus of a number is the remainder when that number is divided by another number., modulus

Variables Used

Temperature - (Measured in Kelvin) - Temperature is the degree or intensity of heat present in a substance or object.
Enthalpy - (Measured in Joule) - Enthalpy is the thermodynamic quantity equivalent to the total heat content of a system.
Gibbs Free Energy - (Measured in Joule) - Gibbs Free Energy is a thermodynamic potential that can be used to calculate the maximum of reversible work that may be performed by a thermodynamic system at a constant temperature and pressure.
Entropy - (Measured in Joule per Kelvin) - Entropy is the measure of a system’s thermal energy per unit temperature that is unavailable for doing useful work.

STEP 1: Convert Input(s) to Base Unit

Enthalpy: 1.51 Kilojoule --> 1510 Joule (Check conversion here)
Gibbs Free Energy: 0.22861 Kilojoule --> 228.61 Joule (Check conversion here)
Entropy: 16.8 Joule per Kelvin --> 16.8 Joule per Kelvin No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T = modulus((H-G)/S) --> modulus((1510-228.61)/16.8)

Evaluating ... ...

T = 76.2732142857143

STEP 3: Convert Result to Output's Unit

76.2732142857143 Kelvin --> No Conversion Required

FINAL ANSWER

76.2732142857143 ≈ 76.27321 Kelvin <-- Temperature

(Calculation completed in 00.004 seconds)

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National Institute Of Technology (NIT), Surathkal

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Volume using Enthalpy, Internal Energy and Pressure

LaTeX Go Volume = (Enthalpy-Internal Energy)/Pressure

Enthalpy using Internal Energy, Pressure and Volume

LaTeX Go Enthalpy = Internal Energy+Pressure*Volume

Internal Energy using Enthalpy, Pressure and Volume

LaTeX Go Internal Energy = Enthalpy-Pressure*Volume

Temperature using Gibbs Free Energy, Enthalpy and Entropy Formula

LaTeX Go

Temperature = modulus((Enthalpy-Gibbs Free Energy)/Entropy)
T = modulus((H-G)/S)

What is Gibbs Free Energy?

The Gibbs free energy (or Gibbs energy) is a thermodynamic potential that can be used to calculate the maximum reversible work that may be performed by a thermodynamic system at a constant temperature and pressure. The Gibbs free energy measured in joules in SI) is the maximum amount of non-expansion work that can be extracted from a thermodynamically closed system (can exchange heat and work with its surroundings, but not matter). This maximum can be attained only in a completely reversible process. When a system transforms reversibly from an initial state to a final state, the decrease in Gibbs free energy equals the work done by the system to its surroundings, minus the work of the pressure forces.

How to Calculate Temperature using Gibbs Free Energy, Enthalpy and Entropy?

Temperature using Gibbs Free Energy, Enthalpy and Entropy calculator uses Temperature = modulus((Enthalpy-Gibbs Free Energy)/Entropy) to calculate the Temperature, The Temperature using Gibbs Free Energy, Enthalpy and Entropy formula is defined as the ratio of the difference of enthalpy and Gibbs energy to the entropy. Temperature is denoted by T symbol.

How to calculate Temperature using Gibbs Free Energy, Enthalpy and Entropy using this online calculator? To use this online calculator for Temperature using Gibbs Free Energy, Enthalpy and Entropy, enter Enthalpy (H), Gibbs Free Energy (G) & Entropy (S) and hit the calculate button. Here is how the Temperature using Gibbs Free Energy, Enthalpy and Entropy calculation can be explained with given input values -> 76.27321 = modulus((1510-228.61)/16.8).

FAQ

What is Temperature using Gibbs Free Energy, Enthalpy and Entropy?

The Temperature using Gibbs Free Energy, Enthalpy and Entropy formula is defined as the ratio of the difference of enthalpy and Gibbs energy to the entropy and is represented as T = modulus((H-G)/S) or Temperature = modulus((Enthalpy-Gibbs Free Energy)/Entropy). Enthalpy is the thermodynamic quantity equivalent to the total heat content of a system, Gibbs Free Energy is a thermodynamic potential that can be used to calculate the maximum of reversible work that may be performed by a thermodynamic system at a constant temperature and pressure & Entropy is the measure of a system’s thermal energy per unit temperature that is unavailable for doing useful work.

How to calculate Temperature using Gibbs Free Energy, Enthalpy and Entropy?

The Temperature using Gibbs Free Energy, Enthalpy and Entropy formula is defined as the ratio of the difference of enthalpy and Gibbs energy to the entropy is calculated using Temperature = modulus((Enthalpy-Gibbs Free Energy)/Entropy). To calculate Temperature using Gibbs Free Energy, Enthalpy and Entropy, you need Enthalpy (H), Gibbs Free Energy (G) & Entropy (S). With our tool, you need to enter the respective value for Enthalpy, Gibbs Free Energy & Entropy 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 Temperature?

In this formula, Temperature uses Enthalpy, Gibbs Free Energy & Entropy. We can use 1 other way(s) to calculate the same, which is/are as follows -

Temperature = (Internal Energy-Helmholtz Free Energy)/Entropy

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