Efficiency of Carnot Engine Calculator

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✖Low Temperature the measure of hotness or coldness expressed in terms of any of several scales, including Fahrenheit and Celsius.ⓘ Low Temperature [T_low]			+10% -10%
✖High Temperature the measure of hotness or coldness expressed in terms of any of several scales, including Fahrenheit and Celsius.ⓘ High Temperature [T_high]			+10% -10%

✖Efficiency of Carnot Engine is defined as the ratio of the energy output to the energy input.ⓘ Efficiency of Carnot Engine [η]

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Formula

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Efficiency of Carnot Engine

Formula

`"η" = 1-("T"_{"low"}/"T"_{"high"})`

Example

`"0.9"=1-("10K"/"100K")`

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Efficiency of Carnot Engine Solution

STEP 0: Pre-Calculation Summary

Formula Used

Efficiency of Carnot Engine = 1-(Low Temperature/High Temperature)
η = 1-(T_low/T_high)
This formula uses 3 Variables

Variables Used

Efficiency of Carnot Engine - Efficiency of Carnot Engine is defined as the ratio of the energy output to the energy input.
Low Temperature - (Measured in Kelvin) - Low Temperature the measure of hotness or coldness expressed in terms of any of several scales, including Fahrenheit and Celsius.
High Temperature - (Measured in Kelvin) - High Temperature the measure of hotness or coldness expressed in terms of any of several scales, including Fahrenheit and Celsius.

STEP 1: Convert Input(s) to Base Unit

Low Temperature: 10 Kelvin --> 10 Kelvin No Conversion Required
High Temperature: 100 Kelvin --> 100 Kelvin No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

η = 1-(T_low/T_high) --> 1-(10/100)

Evaluating ... ...

η = 0.9

STEP 3: Convert Result to Output's Unit

0.9 --> No Conversion Required

FINAL ANSWER

0.9 <-- Efficiency of Carnot Engine

(Calculation completed in 00.004 seconds)

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Home » Chemistry » Chemical Thermodynamics » First Order Thermodynamics » Efficiency of Carnot Engine

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Created by Torsha_Paul

University of Calcutta (CU), Kolkata

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National University of Judicial Science (NUJS), Kolkata

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< 25 First Order Thermodynamics Calculators

Isothermal Compression

Go Work Done in Isothermal Compression = -Number of Moles given KE*8.314*Low Temperature*ln(Volume Initially/Volume finally)

Isothermal Expansion

Go Work Done in Isothermal Expansion = -Number of Moles given KE*8.314*High Temperature*ln(Volume finally/Volume Initially)

Work Done by System in Isothermal Process

Go Work Done by the System = -Number of Moles given KE*8.314*Temperature given RP*ln(Volume finally/Volume Initially)

Adiabatic Compression

Go Work Done by the System = 8.314*(Low Temperature-High Temperature)/(Adiabatic Coefficient-1)

Adiabatic Expansion

Go Work Done by the System = 8.314*(High Temperature-Low Temperature)/(Adiabatic Coefficient-1)

Coefficient of Performance of Refrigerator given Energy

Go Coefficient of Performance of Refrigerator = Sink Energy/(System Energy-Sink Energy)

Coefficient of Performance for Refrigeration

Go Coefficient of Performance = Low Temperature/(High Temperature-Low Temperature)

Change in Internal Energy given Cv

Go Change in Internal Energy of the System = Heat Capacity at Constant Volume*Change in Temperature

Change in Enthalpy given Cp

Go Change in Enthalpy in the System = Heat Capacity at Constant Pressure*Change in Temperature

Specific Heat Capacity in Thermodynamics

Go Specific Heat Capacity in Thermodynamics = Change in Heat Energy/Mass of the Substance

Internal Energy using Equipartition Energy

Go Internal Energy using Equipartition Energy = 1/2*[BoltZ]*Temperature of Gas

Heat Energy given Internal Energy

Go Change in Heat Energy = Internal Energy of the System+(Work Done given IE)

Internal Energy of System

Go Internal Energy of the System = Change in Heat Energy-(Work Done given IE)

Heat Capacity in Thermodynamics

Go Heat Capacity of the System = Change in Heat Energy/Change in Temperature

Heat Energy given Heat Capacity

Go Change in Heat Energy = Heat Capacity of the System*Change in Temperature

Work Done given Internal Energy

Go Work Done given IE = Change in Heat Energy-Internal Energy of the System

Internal Energy of Triatomic Non Linear System

Go Internal Energy of Polyatomic Gases = 6/2*[BoltZ]*Temperature given U

Internal Energy of Triatomic Linear System

Go Internal Energy of Polyatomic Gases = 7/2*[BoltZ]*Temperature given U

Internal Energy of Monoatomic System

Go Internal Energy of Polyatomic Gases = 3/2*[BoltZ]*Temperature given U

Internal Energy of Diatomic System

Go Internal Energy of Polyatomic Gases = 5/2*[BoltZ]*Temperature given U

Efficiency of Carnot Engine

Go Efficiency of Carnot Engine = 1-(Low Temperature/High Temperature)

Work Done by System in Adiabatic Process

Go Work Done by the System = External Pressure*Small Volume Change

Efficiency of Carnot Engine given Energy

Go Efficiency of Carnot Engine = 1-(Sink Energy/System Energy)

Work Done in Irreversible Process

Go Irreversible Work Done = -External Pressure*Volume change

Efficiency of Heat Engine

Go Efficiency of Heat Engine = (Heat Input/Heat Output)*100

Efficiency of Carnot Engine Formula

Efficiency of Carnot Engine = 1-(Low Temperature/High Temperature)
η = 1-(T_low/T_high)

What is the application of Carnot?

Carnot's theorem is used in engines that turn thermal energy into work. In a refrigeration system, the Carnot cycle is reversed. We know that a heat engine based on the Carnot engine has the maximum efficiency.

How to Calculate Efficiency of Carnot Engine?

Efficiency of Carnot Engine calculator uses Efficiency of Carnot Engine = 1-(Low Temperature/High Temperature) to calculate the Efficiency of Carnot Engine, The Efficiency of Carnot Engine formula is defined as the ratio of the energy output to the energy input. The Carnot cycle is the most efficient engine possible based on the assumption of the absence of incidental wasteful processes such as friction, and the assumption of no conduction of heat between different parts of the engine at different temperatures. Efficiency of Carnot Engine is denoted by η symbol.

How to calculate Efficiency of Carnot Engine using this online calculator? To use this online calculator for Efficiency of Carnot Engine, enter Low Temperature (T_low) & High Temperature (T_high) and hit the calculate button. Here is how the Efficiency of Carnot Engine calculation can be explained with given input values -> 0.9 = 1-(10/100).

FAQ

What is Efficiency of Carnot Engine?

The Efficiency of Carnot Engine formula is defined as the ratio of the energy output to the energy input. The Carnot cycle is the most efficient engine possible based on the assumption of the absence of incidental wasteful processes such as friction, and the assumption of no conduction of heat between different parts of the engine at different temperatures and is represented as η = 1-(T_low/T_high) or Efficiency of Carnot Engine = 1-(Low Temperature/High Temperature). Low Temperature the measure of hotness or coldness expressed in terms of any of several scales, including Fahrenheit and Celsius & High Temperature the measure of hotness or coldness expressed in terms of any of several scales, including Fahrenheit and Celsius.

How to calculate Efficiency of Carnot Engine?

The Efficiency of Carnot Engine formula is defined as the ratio of the energy output to the energy input. The Carnot cycle is the most efficient engine possible based on the assumption of the absence of incidental wasteful processes such as friction, and the assumption of no conduction of heat between different parts of the engine at different temperatures is calculated using Efficiency of Carnot Engine = 1-(Low Temperature/High Temperature). To calculate Efficiency of Carnot Engine, you need Low Temperature (T_low) & High Temperature (T_high). With our tool, you need to enter the respective value for Low Temperature & High Temperature 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 Efficiency of Carnot Engine?

In this formula, Efficiency of Carnot Engine uses Low Temperature & High Temperature. We can use 1 other way(s) to calculate the same, which is/are as follows -

Efficiency of Carnot Engine = 1-(Sink Energy/System Energy)

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