## < ⎙ 10 Other formulas that you can solve using the same Inputs

Energy Performance Ratio of Heat Pump
Theoretical Coefficient of Performance=Heat Delivered to Body/Work GO
Cooled Compressor Efficiency
Cooled Compressor Efficiency=Kinetic Energy/Work GO
Thermal Efficiency of Heat Engine
thermal efficiency of heat engine=Work /Heat GO
Mean Effective Pressure
mean effective pressure=Work /Displacement GO
Compressor Efficiency
Compressor efficiency=Kinetic Energy/Work GO
Turbine Efficiency
turbine efficiency=Work /Kinetic Energy GO
Real Refrigerator
Real Refrigerator=heat lower /Work GO
Real Heat Engine
real heat engine=Work /Heat GO
Real Heat Pump
real heat pump=Heat/Work GO
performance of heat pump
heat pump=Heat/Work GO

## < ⎙ 2 Other formulas that calculate the same Output

COP of Bell-Coleman Cycle for given Compression ratio and adiabatic index(γ)
Theoretical Coefficient of Performance=1/(Compression or Expansion Ratio^((Heat Capacity Ratio-1)/Heat Capacity Ratio)-1) GO
Energy Performance Ratio of Heat Pump
Theoretical Coefficient of Performance=Heat Delivered to Body/Work GO

### Theoretical Coefficient of Performance of a refrigerator Formula

Theoretical Coefficient of Performance=Heat Extracted from Refrigerator/Work
More formulas
Specific Heat Capacity at Constant Pressure GO
Heat Transfer at Constant Pressure GO
Entropy change (Isochoric Process) (With given temperatures) GO
Entropy change (Isochoric Process) (With given pressures) GO
Isobaric Work (for given pressure and volumes) GO
Isobaric Work (for given mass and temperatures) GO
Entropy change (Isobaric Process) (With given temperatures) GO
Entropy change (Isobaric Process) (With given volumes) GO
Entropy change (Isothermal Process) (With given volumes) GO
Work done in adiabatic process GO
Mass Flow Rate in a Steady Flow GO
Relative Coefficient of Performance GO
Energy Performance Ratio of Heat Pump GO
Ram Efficiency GO

## What is Coefficient of Performance?

Theoretical Coefficient of Performance of a refrigerator is the ratio of heat Extracted from the Refrigerator (or the amount of refrigeration produced or the capacity of the refrigerator) to the amount of work done.

## How to Calculate Theoretical Coefficient of Performance of a refrigerator?

Theoretical Coefficient of Performance of a refrigerator calculator uses Theoretical Coefficient of Performance=Heat Extracted from Refrigerator/Work to calculate the Theoretical Coefficient of Performance, Theoretical Coefficient of Performance of a refrigerator = Heat Extracted in refrigerator / Amount of work done . Theoretical Coefficient of Performance and is denoted by COPtheoretical symbol.

How to calculate Theoretical Coefficient of Performance of a refrigerator using this online calculator? To use this online calculator for Theoretical Coefficient of Performance of a refrigerator, enter Work (W) and Heat Extracted from Refrigerator (Q) and hit the calculate button. Here is how the Theoretical Coefficient of Performance of a refrigerator calculation can be explained with given input values -> 0.016667 = 5/300.

### FAQ

What is Theoretical Coefficient of Performance of a refrigerator?
Theoretical Coefficient of Performance of a refrigerator = Heat Extracted in refrigerator / Amount of work done and is represented as COPtheoretical=Q/W or Theoretical Coefficient of Performance=Heat Extracted from Refrigerator/Work . Work is done when a force that is applied to an object moves that object and Heat Extracted from Refrigerator is the amount of refrigeration produced or the capacity of the refrigerator.
How to calculate Theoretical Coefficient of Performance of a refrigerator?
Theoretical Coefficient of Performance of a refrigerator = Heat Extracted in refrigerator / Amount of work done is calculated using Theoretical Coefficient of Performance=Heat Extracted from Refrigerator/Work . To calculate Theoretical Coefficient of Performance of a refrigerator, you need Work (W) and Heat Extracted from Refrigerator (Q). With our tool, you need to enter the respective value for Work and Heat Extracted from Refrigerator 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 Theoretical Coefficient of Performance?
In this formula, Theoretical Coefficient of Performance uses Work and Heat Extracted from Refrigerator. We can use 2 other way(s) to calculate the same, which is/are as follows -
• Theoretical Coefficient of Performance=Heat Delivered to Body/Work
• Theoretical Coefficient of Performance=1/(Compression or Expansion Ratio^((Heat Capacity Ratio-1)/Heat Capacity Ratio)-1) Let Others Know