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Thermodynamic Efficiency using Work Required Formula

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Thermodynamic Efficiency using Work Required is defined as the ratio of desired output to required input. Check FAQs

η tworkrequired = \frac{W ideal}{W Actual}

η_{tworkrequired} - Thermodynamic Efficiency using Work Required?W_ideal - Ideal Work?W_Actual - Actual Work Done in Thermodynamic Process?

Thermodynamic Efficiency using Work Required Example

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Here is how the Thermodynamic Efficiency using Work Required equation looks like with Values.

Here is how the Thermodynamic Efficiency using Work Required equation looks like with Units.

Here is how the Thermodynamic Efficiency using Work Required equation looks like.

0.5 = \frac{105}{210}

0.5 = \frac{105J}{210J}

0.5 = \frac{105}{210}

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Thermodynamic Efficiency using Work Required Solution

Follow our step by step solution on how to calculate Thermodynamic Efficiency using Work Required?

FIRST Step Consider the formula

η tworkrequired = \frac{W ideal}{W Actual}

Next Step Substitute values of Variables

∴

η tworkrequired = \frac{105J}{210J}

Next Step Prepare to Evaluate

∴

η tworkrequired = \frac{105}{210}

LAST Step Evaluate

∴

η tworkrequired = 0.5

Thermodynamic Efficiency using Work Required Formula Elements

Variables

Thermodynamic Efficiency using Work Required

Thermodynamic Efficiency using Work Required is defined as the ratio of desired output to required input.

Symbol: η_{tworkrequired}

Measurement: NAUnit: Unitless

Note: Value should be less than 100.

Formulas to find Thermodynamic Efficiency using Work Required

Ideal Work

Ideal Work is defined as the maximum work obtained when the processes are mechanically reversible.

Symbol: W_ideal

Measurement: EnergyUnit: J

Note: Value can be positive or negative.

Formulas to find Ideal Work

Actual Work Done in Thermodynamic Process

Actual Work Done in Thermodynamic Process is defined as the work done by the system or on the system considering all conditions.

Symbol: W_Actual

Measurement: EnergyUnit: J

Note: Value should be greater than 0.

Formulas to find Actual Work Done in Thermodynamic Process

Other formulas in Laws of Thermodynamics their Applications and other Basic Concepts category

Go Internal Energy using First Law of Thermodynamics

ΔU = Q + W

Go Heat using First Law of Thermodynamics

Q = ΔU - W

Go Work using First Law of Thermodynamics

W = ΔU - Q

Go Turbine Efficiency using Actual and Isentropic Change in Enthalpy

η T = \frac{ΔH}{ΔH S}

How to Evaluate Thermodynamic Efficiency using Work Required?

Thermodynamic Efficiency using Work Required evaluator uses Thermodynamic Efficiency using Work Required = Ideal Work/Actual Work Done in Thermodynamic Process to evaluate the Thermodynamic Efficiency using Work Required, The Thermodynamic Efficiency using Work Required formula is defined as the ratio of the ideal work to the actual work when ideal work is positive meaning the work is required. Thermodynamic Efficiency using Work Required is denoted by η_{tworkrequired} symbol.

How to evaluate Thermodynamic Efficiency using Work Required using this online evaluator? To use this online evaluator for Thermodynamic Efficiency using Work Required, enter Ideal Work (W_ideal) & Actual Work Done in Thermodynamic Process (W_Actual) and hit the calculate button.

FAQs on Thermodynamic Efficiency using Work Required

What is the formula to find Thermodynamic Efficiency using Work Required?

The formula of Thermodynamic Efficiency using Work Required is expressed as Thermodynamic Efficiency using Work Required = Ideal Work/Actual Work Done in Thermodynamic Process. Here is an example- 0.5 = 105/210.

How to calculate Thermodynamic Efficiency using Work Required?

With Ideal Work (W_ideal) & Actual Work Done in Thermodynamic Process (W_Actual) we can find Thermodynamic Efficiency using Work Required using the formula - Thermodynamic Efficiency using Work Required = Ideal Work/Actual Work Done in Thermodynamic Process.

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