Anirudh Singh
National Institute of Technology (NIT), Jamshedpur
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## < 6 Other formulas that you can solve using the same Inputs

Coefficient of Performance of Refrigerator
Coefficient of performance of refrigerator=heat lower /refrigerator work GO
Carnot Cycle of Heat Pump
carnot cycle of heat pump =heat high/(heat high-heat lower ) GO
Carnot Cycle of Refrigerator
Carnot cycle of refrigerator=1/(heat lower /heat high-1) GO
work of heat pump
work of heat pump=heat high-heat lower GO
Refrigerator Work
refrigerator work=heat high-heat lower GO
Real Refrigerator
Real Refrigerator=heat lower /Work GO

### Absolute Temperature Formula

Absolute temperature=heat lower /heat high
More formulas
Temperature After a Given Time GO
Mean Effective Pressure GO
Otto Cycle Efficiency GO
Degree of Saturation GO
Dew Point Depression GO
By Pass Factor GO
Carnot Cycle of Heat Engine GO
Absolute Humidity GO
Volumetric Efficiency GO
Partial pressure of Water Vapour GO
Diesel Efficiency GO
Indicated Thermal Efficiency GO
Brake Thermal Efficiency GO
Ranking Cycle Efficiency GO
Brayton Cycle Efficiency GO
Real Heat Pump GO
Real Heat Engine GO
Thermal Efficiency of Heat Engine GO
performance of heat pump GO
work of heat pump GO
Carnot Cycle of Heat Pump GO
Overall Efficiency GO
Sensible Heat Factor GO
Coefficient of Performance of absorption system GO
Refrigerator Work GO
Coefficient of Performance of Refrigerator GO
Carnot Cycle of Refrigerator GO
Real Refrigerator GO
Turbine Efficiency GO
Compressor Efficiency GO
Cooled Compressor Efficiency GO
Nozzle Efficiency GO
Work done in an isobaric process GO
Relative Density GO
Density Of Two Liquids GO
Entropy Balance Equation GO
Specific Entropy GO
Air Fuel Ratio GO
Compressibility Factor GO
Reduced Temperature GO
Reduced Pressure GO
Pseudo-Reduced Specific volume GO
Degree Of Freedom GO
Helmholtz free energy GO
RMS speed GO
Average speed of gases GO
Most probable speed GO
Equipartition energy GO
Equipartition energy for molecule having n degrees of freedom GO
Molar internal energy of an ideal gas GO
Thermal efficiency given Mechanical energy GO
Thermal efficiency given Waste energy GO
Thermal efficiency of a Carnot engine GO
Coefficient of Performance of Refrigerator given the heat in the cold and hot reservoir GO
Coefficient of Performance of Heat Pump given the heat in the cold and hot reservoir GO
Coefficient of Performance of Heat Pump given work and heat in the cold reservoir GO
Coefficient of Performance of Refrigerator given work and heat in the cold reservoir GO
Change in momentum GO
Change in kinetic energy GO
Change in potential energy GO
Stefan–Boltzmann law GO
Newton's law of cooling GO
Pressure GO
Specific heat GO
Ratio of specific heat GO
Entropy change at constant volume GO
Entropy change at constant pressure GO
Entropy change variable specific heat GO
Specific heat ratio GO
Specific Heat of Gas Mixture GO
Molar Internal Energy of an Ideal Gas GO
Work Done in Isobaric Process GO
Ideal Gas Law for Calculating Volume GO
Ideal Gas Law for Calculating Pressure GO
Specific Gas Constant GO
Pressure Ratio in Isentropic Process GO
Temperature Ratio When Isentropic Pressure is Given GO
Temperature Ratio when Isentropic Specific Volume is Given GO
Isentropic Pressure at point 2 GO
Isentropic Pressure at point 1 GO
Isentropic temperature 2 given pressure ratio GO
Isentropic temperature 1 given pressure ratio GO
Isentropic temperature 1 given specific volume GO
Isentropic temperature 2 given specific volume GO
Relative Humidity GO
Specific Humidity GO
Vapour Quality GO
Saturated Mixture Specific Enthalpy GO
Isobaric work GO
Polytropic work GO
Isothermal work given volume ratio GO
Isothermal work given pressure ratio GO
Isothermal work given temperature GO
Shaft power GO
Spring work GO
Van der Waals equation GO
Irreversibility GO
Isothermal Work Done by the gas GO
Latent heat GO
Specific heat at constant volume GO
Isothermal Compression Of An Ideal Gas GO
Thermal stress of a material GO
Thermal Expansion GO
Internal Energy When Helmholtz Free Energy Is Given GO
Temperature When Helmholtz free Energy is Given GO
Entropy When Helmholtz Free Energy is Given GO

## What is Absolute Temperature?

Absolute temperature, also called thermodynamic temperature, is the temperature of an object on a scale where 0 is taken as absolute zero.

## How to Calculate Absolute Temperature?

Absolute Temperature calculator uses Absolute temperature=heat lower /heat high to calculate the Absolute temperature, Absolute Temperature is the ratio of heats at lower and higher temperatures. Absolute temperature and is denoted by Tabs symbol.

How to calculate Absolute Temperature using this online calculator? To use this online calculator for Absolute Temperature, enter heat lower (Hlow) and heat high (Hhigh) and hit the calculate button. Here is how the Absolute Temperature calculation can be explained with given input values -> 2 = 1000/500.

### FAQ

What is Absolute Temperature?
Absolute Temperature is the ratio of heats at lower and higher temperatures and is represented as Tabs=Hlow/Hhigh or Absolute temperature=heat lower /heat high. heat lower is heat of the material at a lower temperature and heat high is the heat to the body at a higher temperature.
How to calculate Absolute Temperature?
Absolute Temperature is the ratio of heats at lower and higher temperatures is calculated using Absolute temperature=heat lower /heat high. To calculate Absolute Temperature, you need heat lower (Hlow) and heat high (Hhigh). With our tool, you need to enter the respective value for heat lower and heat high and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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