Specific Volume for External Work Done in Adiabatic Process Introducing Pressure Solution

STEP 0: Pre-Calculation Summary
Formula Used
Specific Volume for Point 1 = ((Work Done*(Heat Capacity Ratio-1))+(Pressure 2*Specific Volume for Point 2))/Pressure 1
v1 = ((w*(C-1))+(P2*v2))/P1
This formula uses 6 Variables
Variables Used
Specific Volume for Point 1 - (Measured in Cubic Meter per Kilogram) - Specific Volume for Point 1 is the number of cubic meters occupied by one kilogram of matter. It is the ratio of a material's volume to its mass.
Work Done - (Measured in Joule) - Work Done refers to the amount of energy transferred or expended when a force acts on an object and causes displacement.
Heat Capacity Ratio - Heat Capacity Ratio is the ratio of specific heats of a substance at constant pressure and constant volume.
Pressure 2 - (Measured in Pascal) - Pressure 2 is the pressure at give point 2.
Specific Volume for Point 2 - (Measured in Cubic Meter per Kilogram) - Specific Volume for Point 2 is the number of cubic meters occupied by one kilogram of matter. It is the ratio of a material's volume to its mass.
Pressure 1 - (Measured in Pascal) - Pressure 1 is the pressure at give point 1.
STEP 1: Convert Input(s) to Base Unit
Work Done: 30 Kilojoule --> 30000 Joule (Check conversion ​here)
Heat Capacity Ratio: 0.5 --> No Conversion Required
Pressure 2: 5.2 Bar --> 520000 Pascal (Check conversion ​here)
Specific Volume for Point 2: 0.816 Cubic Meter per Kilogram --> 0.816 Cubic Meter per Kilogram No Conversion Required
Pressure 1: 2.5 Bar --> 250000 Pascal (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
v1 = ((w*(C-1))+(P2*v2))/P1 --> ((30000*(0.5-1))+(520000*0.816))/250000
Evaluating ... ...
v1 = 1.63728
STEP 3: Convert Result to Output's Unit
1.63728 Cubic Meter per Kilogram --> No Conversion Required
FINAL ANSWER
1.63728 Cubic Meter per Kilogram <-- Specific Volume for Point 1
(Calculation completed in 00.005 seconds)

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Basic Relationship of Thermodynamics Calculators

Mass Density given Absolute Pressure
​ LaTeX ​ Go Mass Density of Gas = Absolute Pressure by Fluid Density/(Ideal Gas Constant*Absolute Temperature of Compressible Fluid)
Gas Constant given Absolute Pressure
​ LaTeX ​ Go Ideal Gas Constant = Absolute Pressure by Fluid Density/(Mass Density of Gas*Absolute Temperature of Compressible Fluid)
Absolute Pressure given Absolute Temperature
​ LaTeX ​ Go Absolute Pressure by Fluid Density = Mass Density of Gas*Ideal Gas Constant*Absolute Temperature of Compressible Fluid
Pressure given Constant
​ LaTeX ​ Go Pressure of Compressible Flow = Gas Constant a/Specific Volume

Specific Volume for External Work Done in Adiabatic Process Introducing Pressure Formula

​LaTeX ​Go
Specific Volume for Point 1 = ((Work Done*(Heat Capacity Ratio-1))+(Pressure 2*Specific Volume for Point 2))/Pressure 1
v1 = ((w*(C-1))+(P2*v2))/P1

What is meant by Adiabatic Index?

Adiabatic Index is defined as the ratio of specific heat at constant pressure and that at constant volume.

What is meant by External Work Done?

When work is done by external forces (non-conservative forces), the total mechanical energy of the object is altered. The work that is done can be positive work or negative work depending on whether the force doing the work is directed opposite the object's motion or in the same direction as the object's motion.

How to Calculate Specific Volume for External Work Done in Adiabatic Process Introducing Pressure?

Specific Volume for External Work Done in Adiabatic Process Introducing Pressure calculator uses Specific Volume for Point 1 = ((Work Done*(Heat Capacity Ratio-1))+(Pressure 2*Specific Volume for Point 2))/Pressure 1 to calculate the Specific Volume for Point 1, Specific Volume for External Work Done in Adiabatic Process Introducing Pressure is define as a property of materials, defined as the number of cubic meters occupied by one kilogram of a particular substance. Specific Volume for Point 1 is denoted by v1 symbol.

How to calculate Specific Volume for External Work Done in Adiabatic Process Introducing Pressure using this online calculator? To use this online calculator for Specific Volume for External Work Done in Adiabatic Process Introducing Pressure, enter Work Done (w), Heat Capacity Ratio (C), Pressure 2 (P2), Specific Volume for Point 2 (v2) & Pressure 1 (P1) and hit the calculate button. Here is how the Specific Volume for External Work Done in Adiabatic Process Introducing Pressure calculation can be explained with given input values -> 1.63728 = ((30000*(0.5-1))+(520000*0.816))/250000.

FAQ

What is Specific Volume for External Work Done in Adiabatic Process Introducing Pressure?
Specific Volume for External Work Done in Adiabatic Process Introducing Pressure is define as a property of materials, defined as the number of cubic meters occupied by one kilogram of a particular substance and is represented as v1 = ((w*(C-1))+(P2*v2))/P1 or Specific Volume for Point 1 = ((Work Done*(Heat Capacity Ratio-1))+(Pressure 2*Specific Volume for Point 2))/Pressure 1. Work Done refers to the amount of energy transferred or expended when a force acts on an object and causes displacement, Heat Capacity Ratio is the ratio of specific heats of a substance at constant pressure and constant volume, Pressure 2 is the pressure at give point 2, Specific Volume for Point 2 is the number of cubic meters occupied by one kilogram of matter. It is the ratio of a material's volume to its mass & Pressure 1 is the pressure at give point 1.
How to calculate Specific Volume for External Work Done in Adiabatic Process Introducing Pressure?
Specific Volume for External Work Done in Adiabatic Process Introducing Pressure is define as a property of materials, defined as the number of cubic meters occupied by one kilogram of a particular substance is calculated using Specific Volume for Point 1 = ((Work Done*(Heat Capacity Ratio-1))+(Pressure 2*Specific Volume for Point 2))/Pressure 1. To calculate Specific Volume for External Work Done in Adiabatic Process Introducing Pressure, you need Work Done (w), Heat Capacity Ratio (C), Pressure 2 (P2), Specific Volume for Point 2 (v2) & Pressure 1 (P1). With our tool, you need to enter the respective value for Work Done, Heat Capacity Ratio, Pressure 2, Specific Volume for Point 2 & Pressure 1 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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