Pressure using Modified Berthelot Equation given Reduced and Actual Parameters Solution

STEP 0: Pre-Calculation Summary
Formula Used
Pressure = ([R]*Temperature/Molar Volume)*(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2))))))
p = ([R]*T/Vm)*(1+(((9* Pr)/(128*Tr))*(1-(6/((Tr^2))))))
This formula uses 1 Constants, 5 Variables
Constants Used
[R] - Universal gas constant Value Taken As 8.31446261815324
Variables Used
Pressure - (Measured in Pascal) - Pressure is the force applied perpendicular to the surface of an object per unit area over which that force is distributed.
Temperature - (Measured in Kelvin) - Temperature is the degree or intensity of heat present in a substance or object.
Molar Volume - (Measured in Cubic Meter per Mole) - Molar Volume is the volume occupied by one mole of a real gas at standard temperature and pressure.
Reduced Pressure - Reduced Pressure is the ratio of the actual pressure of the fluid to its critical pressure. It is dimensionless.
Reduced Temperature - Reduced Temperature is the ratio of the actual temperature of the fluid to its critical temperature. It is dimensionless.
STEP 1: Convert Input(s) to Base Unit
Temperature: 85 Kelvin --> 85 Kelvin No Conversion Required
Molar Volume: 22.4 Cubic Meter per Mole --> 22.4 Cubic Meter per Mole No Conversion Required
Reduced Pressure: 3.675E-05 --> No Conversion Required
Reduced Temperature: 10 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
p = ([R]*T/Vm)*(1+(((9* Pr)/(128*Tr))*(1-(6/((Tr^2)))))) --> ([R]*85/22.4)*(1+(((9* 3.675E-05)/(128*10))*(1-(6/((10^2))))))
Evaluating ... ...
p = 31.55042384838
STEP 3: Convert Result to Output's Unit
31.55042384838 Pascal --> No Conversion Required
FINAL ANSWER
31.55042384838 31.55042 Pascal <-- Pressure
(Calculation completed in 00.004 seconds)

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21 Berthelot and Modified Berthelot Model of Real Gas Calculators

Molar Volume using Modified Berthelot Equation given Critical and Reduced Parameters
Go Molar Volume = ([R]*(Reduced Temperature*Critical Temperature)/(Reduced Pressure*Critical Pressure))*(1+(((9*(Reduced Pressure*Critical Pressure)/Critical Pressure)/(128*(Reduced Temperature*Critical Temperature)/Critical Temperature))*(1-(6/(((Reduced Temperature*Critical Temperature)^2)/(Critical Temperature^2))))))
Berthelot Parameter b of Real Gas given Critical and Reduced Parameters
Go Berthelot Parameter b = (Reduced Molar Volume*Critical Molar Volume)-(([R]*(Reduced Temperature*Critical Temperature))/((Reduced Pressure*Critical Pressure)+(Berthelot Parameter a/((Reduced Temperature*Critical Temperature)*((Reduced Molar Volume*Critical Molar Volume)^2)))))
Berthelot Parameter of Real Gas given Critical and Reduced Parameters
Go Berthelot Parameter a = ((([R]*(Reduced Temperature*Critical Temperature))/((Reduced Molar Volume*Critical Molar Volume)-Berthelot Parameter b))-(Reduced Pressure*Critical Pressure))*((Reduced Temperature*Critical Temperature)*((Reduced Molar Volume*Critical Molar Volume)^2))
Molar Volume of Real Gas using Berthelot Equation given Critical and Reduced Parameters
Go Molar Volume = ((1/(Reduced Pressure*Critical Pressure))+(Berthelot Parameter b/([R]*(Reduced Temperature*Critical Temperature))))/((1/([R]*(Reduced Temperature*Critical Temperature)))-((Reduced Temperature*Critical Temperature)/Berthelot Parameter a))
Pressure of Real Gas using Berthelot Equation given Critical and Reduced Parameters
Go Pressure = (([R]*(Reduced Temperature*Critical Temperature))/((Reduced Molar Volume*Critical Molar Volume)-Berthelot Parameter b))-(Berthelot Parameter a/((Reduced Temperature*Critical Temperature)*((Reduced Molar Volume*Critical Molar Volume)^2)))
Reduced Molar Volume using Modified Berthelot Equation given Critical and Actual Parameters
Go Reduced Molar Volume = (([R]*Temperature/Pressure)*(1+(((9*Pressure/Critical Pressure)/(128*Temperature/Critical Temperature))*(1-(6/((Temperature^2)/(Critical Temperature^2)))))))/Critical Molar Volume
Temperature of Real Gas using Berthelot Equation given Critical and Reduced Parameters
Go Temperature = ((Reduced Pressure*Critical Pressure)+(Berthelot Parameter a/(Reduced Molar Volume*Critical Molar Volume)))/([R]/((Reduced Molar Volume*Critical Molar Volume)-Berthelot Parameter b))
Molar Volume using Modified Berthelot Equation given Critical and Actual Parameters
Go Molar Volume = ([R]*Temperature/Pressure)*(1+(((9*Pressure/Critical Pressure)/(128*Temperature/Critical Temperature))*(1-(6/((Temperature^2)/(Critical Temperature^2))))))
Critical Pressure using Modified Berthelot Equation given Reduced and Actual Parameters
Go Critical Pressure = 9/128*(Pressure of Gas/Reduced Temperature)*((1-(6/(Reduced Temperature^2)))/(((Pressure of Gas*Molar Volume of Real Gas)/([R]*Temperature of Real Gas))-1))
Molar Volume of Real Gas using Berthelot Equation
Go Molar Volume = ((1/Pressure)+(Berthelot Parameter b/([R]*Temperature)))/((1/([R]*Temperature))-(Temperature/Berthelot Parameter a))
Critical Molar Volume using Modified Berthelot Equation given Reduced and Actual Parameters
Go Critical Molar Volume = (([R]*Temperature/Pressure)*(1+(((9*Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2)))))))/Reduced Molar Volume
Reduced Pressure using Modified Berthelot Equation given Actual Parameters
Go Reduced Pressure = 128/9*Reduced Temperature*((((Pressure of Gas*Molar Volume of Real Gas)/([R]*Temperature of Real Gas))-1)/(1-(6/(Reduced Temperature^2))))
Pressure of Real Gas using Berthelot Equation
Go Pressure = (([R]*Temperature)/(Molar Volume-Berthelot Parameter b))-(Berthelot Parameter a/(Temperature*(Molar Volume^2)))
Berthelot parameter b of Real Gas
Go Berthelot Parameter b = Molar Volume-(([R]*Temperature)/(Pressure+(Berthelot Parameter a/(Temperature*(Molar Volume^2)))))
Berthelot Parameter of Real Gas
Go Berthelot Parameter a = ((([R]*Temperature)/(Molar Volume-Berthelot Parameter b))-Pressure)*(Temperature*(Molar Volume^2))
Molar Volume using Modified Berthelot Equation given Reduced and Actual Parameters
Go Molar Volume = ([R]*Temperature/Pressure)*(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2))))))
Temperature using Modified Berthelot Equation given Reduced and Actual Parameters
Go Temperature = (Pressure*Molar Volume/[R])/(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2))))))
Pressure using Modified Berthelot Equation given Reduced and Actual Parameters
Go Pressure = ([R]*Temperature/Molar Volume)*(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2))))))
Critical Temperature using Modified Berthelot Equation given Reduced and Actual Parameters
Go Critical Temperature of Real Gases = Temperature/(((9*Reduced Pressure)/128)/(((Pressure*Volume)/([R]*Temperature))-1))
Reduced Temperature using Modified Berthelot Equation given Actual Parameters
Go Reduced Temperature in Real Gases = ((9*Reduced Pressure)/128)/(((Pressure of Gas*Molar Volume of Real Gas)/([R]*Temperature of Real Gas))-1)
Temperature of Real Gas using Berthelot Equation
Go Temperature = (Pressure+(Berthelot Parameter a/Molar Volume))/([R]/(Molar Volume-Berthelot Parameter b))

Pressure using Modified Berthelot Equation given Reduced and Actual Parameters Formula

Pressure = ([R]*Temperature/Molar Volume)*(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2))))))
p = ([R]*T/Vm)*(1+(((9* Pr)/(128*Tr))*(1-(6/((Tr^2))))))

What are Real Gases?

Real gases are non ideal gases whose molecules occupy space and have interactions; consequently, they do not adhere to the ideal gas law. To understand the behavior of real gases, the following must be taken into account:
- compressibility effects;
- variable specific heat capacity;
- van der Waals forces;
- non-equilibrium thermodynamic effects;
- issues with molecular dissociation and elementary reactions with variable composition.

How to Calculate Pressure using Modified Berthelot Equation given Reduced and Actual Parameters?

Pressure using Modified Berthelot Equation given Reduced and Actual Parameters calculator uses Pressure = ([R]*Temperature/Molar Volume)*(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2)))))) to calculate the Pressure, The Pressure using Modified Berthelot equation given reduced and actual parameters formula is defined as is the stress on the walls of its container that the gas exerts. Pressure is denoted by p symbol.

How to calculate Pressure using Modified Berthelot Equation given Reduced and Actual Parameters using this online calculator? To use this online calculator for Pressure using Modified Berthelot Equation given Reduced and Actual Parameters, enter Temperature (T), Molar Volume (Vm), Reduced Pressure (Pr) & Reduced Temperature (Tr) and hit the calculate button. Here is how the Pressure using Modified Berthelot Equation given Reduced and Actual Parameters calculation can be explained with given input values -> 31.55042 = ([R]*85/22.4)*(1+(((9* 3.675E-05)/(128*10))*(1-(6/((10^2)))))).

FAQ

What is Pressure using Modified Berthelot Equation given Reduced and Actual Parameters?
The Pressure using Modified Berthelot equation given reduced and actual parameters formula is defined as is the stress on the walls of its container that the gas exerts and is represented as p = ([R]*T/Vm)*(1+(((9* Pr)/(128*Tr))*(1-(6/((Tr^2)))))) or Pressure = ([R]*Temperature/Molar Volume)*(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2)))))). Temperature is the degree or intensity of heat present in a substance or object, Molar Volume is the volume occupied by one mole of a real gas at standard temperature and pressure, Reduced Pressure is the ratio of the actual pressure of the fluid to its critical pressure. It is dimensionless & Reduced Temperature is the ratio of the actual temperature of the fluid to its critical temperature. It is dimensionless.
How to calculate Pressure using Modified Berthelot Equation given Reduced and Actual Parameters?
The Pressure using Modified Berthelot equation given reduced and actual parameters formula is defined as is the stress on the walls of its container that the gas exerts is calculated using Pressure = ([R]*Temperature/Molar Volume)*(1+(((9* Reduced Pressure)/(128*Reduced Temperature))*(1-(6/((Reduced Temperature^2)))))). To calculate Pressure using Modified Berthelot Equation given Reduced and Actual Parameters, you need Temperature (T), Molar Volume (Vm), Reduced Pressure (Pr) & Reduced Temperature (Tr). With our tool, you need to enter the respective value for Temperature, Molar Volume, Reduced Pressure & Reduced Temperature 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 Pressure?
In this formula, Pressure uses Temperature, Molar Volume, Reduced Pressure & Reduced Temperature. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Pressure = (([R]*Temperature)/(Molar Volume-Berthelot Parameter b))-(Berthelot Parameter a/(Temperature*(Molar Volume^2)))
  • Pressure = (([R]*(Reduced Temperature*Critical Temperature))/((Reduced Molar Volume*Critical Molar Volume)-Berthelot Parameter b))-(Berthelot Parameter a/((Reduced Temperature*Critical Temperature)*((Reduced Molar Volume*Critical Molar Volume)^2)))
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