Absolute Temperature given Absolute Pressure Solution

STEP 0: Pre-Calculation Summary
Formula Used
Absolute Temperature of Compressible Fluid = Absolute Pressure by Fluid Density/(Mass Density of Gas*Ideal Gas Constant)
TAbs = Pabs/(ρgas*Rspecific)
This formula uses 4 Variables
Variables Used
Absolute Temperature of Compressible Fluid - (Measured in Kelvin) - Absolute Temperature of Compressible Fluid is temperature measured using the Kelvin scale where zero is absolute zero.
Absolute Pressure by Fluid Density - (Measured in Pascal) - Absolute Pressure by Fluid Density is labeled when any pressure is detected above the absolute zero of pressure.
Mass Density of Gas - (Measured in Kilogram per Cubic Meter) - Mass Density of Gas is the mass per unit volume of Earth's atmosphere.
Ideal Gas Constant - (Measured in Joule per Kilogram K) - Ideal Gas Constant provides a correction for intermolecular forces and is a characteristic of the individual gas.
STEP 1: Convert Input(s) to Base Unit
Absolute Pressure by Fluid Density: 53688.5 Pascal --> 53688.5 Pascal No Conversion Required
Mass Density of Gas: 1.02 Kilogram per Cubic Meter --> 1.02 Kilogram per Cubic Meter No Conversion Required
Ideal Gas Constant: 287 Joule per Kilogram K --> 287 Joule per Kilogram K No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
TAbs = Pabs/(ρgas*Rspecific) --> 53688.5/(1.02*287)
Evaluating ... ...
TAbs = 183.399945343991
STEP 3: Convert Result to Output's Unit
183.399945343991 Kelvin --> No Conversion Required
FINAL ANSWER
183.399945343991 183.3999 Kelvin <-- Absolute Temperature of Compressible Fluid
(Calculation completed in 00.004 seconds)

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18 Basic Relationship of Thermodynamics Calculators

Pressure for External Work Done by Gas in Adiabatic Process Introducing Pressure
Go Pressure 2 = -((Work Done*(Heat Capacity Ratio-1))-(Pressure 1*Specific Volume for Point 1))/Specific Volume for Point 2
Specific Volume for External Work Done in Adiabatic Process Introducing Pressure
Go Specific Volume for Point 1 = ((Work Done*(Heat Capacity Ratio-1))+(Pressure 2*Specific Volume for Point 2))/Pressure 1
Constant for External Work Done in Adiabatic process Introducing Pressure
Go Heat Capacity Ratio = ((1/Work Done)*(Pressure 1*Specific Volume for Point 1-Pressure 2*Specific Volume for Point 2))+1
External Work Done by Gas in Adiabatic Process Introducing Pressure
Go Work Done = (1/(Heat Capacity Ratio-1))*(Pressure 1*Specific Volume for Point 1-Pressure 2*Specific Volume for Point 2)
Potential Energy given Total Energy in Compressible Fluids
Go Potential Energy = Total Energy in Compressible Fluids-(Kinetic Energy+Pressure Energy+Molecular Energy)
Molecular Energy given Total Energy in Compressible Fluids
Go Molecular Energy = Total Energy in Compressible Fluids-(Kinetic Energy+Potential Energy+Pressure Energy)
Pressure Energy given Total Energy in Compressible Fluids
Go Pressure Energy = Total Energy in Compressible Fluids-(Kinetic Energy+Potential Energy+Molecular Energy)
Kinetic Energy given Total Energy in Compressible Fluids
Go Kinetic Energy = Total Energy in Compressible Fluids-(Potential Energy+Pressure Energy+Molecular Energy)
Total Energy in Compressible Fluids
Go Total Energy in Compressible Fluids = Kinetic Energy+Potential Energy+Pressure Energy+Molecular Energy
Absolute Temperature given Absolute Pressure
Go Absolute Temperature of Compressible Fluid = Absolute Pressure by Fluid Density/(Mass Density of Gas*Ideal Gas Constant)
Mass Density given Absolute Pressure
Go Mass Density of Gas = Absolute Pressure by Fluid Density/(Ideal Gas Constant*Absolute Temperature of Compressible Fluid)
Gas Constant given Absolute Pressure
Go Ideal Gas Constant = Absolute Pressure by Fluid Density/(Mass Density of Gas*Absolute Temperature of Compressible Fluid)
Absolute Pressure given Absolute Temperature
Go Absolute Pressure by Fluid Density = Mass Density of Gas*Ideal Gas Constant*Absolute Temperature of Compressible Fluid
Continuity Equation for Compressible Fluids
Go Constant A1 = Mass Density of Fluid*Cross-Sectional Area of Flow Channel*Average Velocity
Pressure given Constant
Go Pressure of Compressible Flow = Gas Constant a/Specific Volume
Change in Internal Energy given Total Heat Supplied to Gas
Go Change in Internal Energy = Total Heat-Work Done
External Work Done by Gas given Total Heat Supplied
Go Work Done = Total Heat-Change in Internal Energy
Total Heat Supplied to Gas
Go Total Heat = Change in Internal Energy+Work Done

Absolute Temperature given Absolute Pressure Formula

Absolute Temperature of Compressible Fluid = Absolute Pressure by Fluid Density/(Mass Density of Gas*Ideal Gas Constant)
TAbs = Pabs/(ρgas*Rspecific)

What is Absolute Pressure?

Absolute pressure is the pressure of having no matter inside a space, or a perfect vacuum. Measurements taken in absolute pressure use this absolute zero as their reference point.

How to Calculate Absolute Temperature given Absolute Pressure?

Absolute Temperature given Absolute Pressure calculator uses Absolute Temperature of Compressible Fluid = Absolute Pressure by Fluid Density/(Mass Density of Gas*Ideal Gas Constant) to calculate the Absolute Temperature of Compressible Fluid, Absolute Temperature given Absolute Pressure is defined as measurement of temperature beginning at absolute zero on Kelvin scale. Absolute Temperature of Compressible Fluid is denoted by TAbs symbol.

How to calculate Absolute Temperature given Absolute Pressure using this online calculator? To use this online calculator for Absolute Temperature given Absolute Pressure, enter Absolute Pressure by Fluid Density (Pabs), Mass Density of Gas gas) & Ideal Gas Constant (Rspecific) and hit the calculate button. Here is how the Absolute Temperature given Absolute Pressure calculation can be explained with given input values -> 183.3999 = 53688.5/(1.02*287).

FAQ

What is Absolute Temperature given Absolute Pressure?
Absolute Temperature given Absolute Pressure is defined as measurement of temperature beginning at absolute zero on Kelvin scale and is represented as TAbs = Pabs/(ρgas*Rspecific) or Absolute Temperature of Compressible Fluid = Absolute Pressure by Fluid Density/(Mass Density of Gas*Ideal Gas Constant). Absolute Pressure by Fluid Density is labeled when any pressure is detected above the absolute zero of pressure, Mass Density of Gas is the mass per unit volume of Earth's atmosphere & Ideal Gas Constant provides a correction for intermolecular forces and is a characteristic of the individual gas.
How to calculate Absolute Temperature given Absolute Pressure?
Absolute Temperature given Absolute Pressure is defined as measurement of temperature beginning at absolute zero on Kelvin scale is calculated using Absolute Temperature of Compressible Fluid = Absolute Pressure by Fluid Density/(Mass Density of Gas*Ideal Gas Constant). To calculate Absolute Temperature given Absolute Pressure, you need Absolute Pressure by Fluid Density (Pabs), Mass Density of Gas gas) & Ideal Gas Constant (Rspecific). With our tool, you need to enter the respective value for Absolute Pressure by Fluid Density, Mass Density of Gas & Ideal Gas Constant 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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