Pressure given Constant Calculator

✖Gas Constant a, provides a correction for intermolecular forces and is a characteristic of the individual gas.ⓘ Gas Constant a [R_a]			+10% -10%
✖Specific Volume of the body is its volume per unit mass.ⓘ Specific Volume [v]			+10% -10%

✖Pressure of Compressible Flow is the force applied perpendicular to the surface of an object per unit area over which that force is distributed.ⓘ Pressure given Constant [p_c]

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Formula

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Pressure given Constant

Formula

`"p"_{"c"} = "R"_{"a"}/"v"`

Example

`"0.049727Pa"="5.47e-1J/kg*K"/"11m³/kg"`

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Pressure given Constant Solution

STEP 0: Pre-Calculation Summary

Formula Used

Pressure of Compressible Flow = Gas Constant a/Specific Volume
p_c = R_a/v
This formula uses 3 Variables

Variables Used

Pressure of Compressible Flow - (Measured in Pascal) - Pressure of Compressible Flow is the force applied perpendicular to the surface of an object per unit area over which that force is distributed.
Gas Constant a - (Measured in Joule per Kilogram K) - Gas Constant a, provides a correction for intermolecular forces and is a characteristic of the individual gas.
Specific Volume - (Measured in Cubic Meter per Kilogram) - Specific Volume of the body is its volume per unit mass.

STEP 1: Convert Input(s) to Base Unit

Gas Constant a: 0.547 Joule per Kilogram K --> 0.547 Joule per Kilogram K No Conversion Required
Specific Volume: 11 Cubic Meter per Kilogram --> 11 Cubic Meter per Kilogram No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

p_c = R_a/v --> 0.547/11

Evaluating ... ...

p_c = 0.0497272727272727

STEP 3: Convert Result to Output's Unit

0.0497272727272727 Pascal --> No Conversion Required

FINAL ANSWER

0.0497272727272727 ≈ 0.049727 Pascal <-- Pressure of Compressible Flow

(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

Pressure given Constant Formula

Pressure of Compressible Flow = Gas Constant a/Specific Volume
p_c = R_a/v

What is Boyles Law?

Boyle's law is a Gas Law which States that the Pressure Exerted by a Gas (of Given Mass at Constant Temperature) is Inversely Proportional to the Volume.

How to Calculate Pressure given Constant?

Pressure given Constant calculator uses Pressure of Compressible Flow = Gas Constant a/Specific Volume to calculate the Pressure of Compressible Flow, Pressure given Constant is defined as physical force exerted on object. force applied is perpendicular to surface of objects per unit area. Pressure of Compressible Flow is denoted by p_c symbol.

How to calculate Pressure given Constant using this online calculator? To use this online calculator for Pressure given Constant, enter Gas Constant a (R_a) & Specific Volume (v) and hit the calculate button. Here is how the Pressure given Constant calculation can be explained with given input values -> 0.049727 = 0.547/11.

FAQ

What is Pressure given Constant?

Pressure given Constant is defined as physical force exerted on object. force applied is perpendicular to surface of objects per unit area and is represented as p_c = R_a/v or Pressure of Compressible Flow = Gas Constant a/Specific Volume. Gas Constant a, provides a correction for intermolecular forces and is a characteristic of the individual gas & Specific Volume of the body is its volume per unit mass.

How to calculate Pressure given Constant?

Pressure given Constant is defined as physical force exerted on object. force applied is perpendicular to surface of objects per unit area is calculated using Pressure of Compressible Flow = Gas Constant a/Specific Volume. To calculate Pressure given Constant, you need Gas Constant a (R_a) & Specific Volume (v). With our tool, you need to enter the respective value for Gas Constant a & Specific Volume 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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