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Boyle's Law According to Adiabatic Process Formula

GoBoyle's Law According to Isothermal Process Formula

GoBoyle's Law given Mass Density Formula

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Gas Constant a, provides a correction for intermolecular forces and is a characteristic of the individual gas. Check FAQs

R a = p c \cdot (v^{C})

R_a - Gas Constant a?p_c - Pressure of Compressible Flow?v - Specific Volume?C - Heat Capacity Ratio?

Boyle's Law According to Adiabatic Process Example

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Here is how the Boyle's Law According to Adiabatic Process equation looks like with Values.

Here is how the Boyle's Law According to Adiabatic Process equation looks like with Units.

Here is how the Boyle's Law According to Adiabatic Process equation looks like.

198.9975 = 60 \cdot (11^{0.5})

198.9975J/kg*K = 60Pa \cdot ({11m³/kg}^{0.5})

198.9975 = 60 \cdot (11^{0.5})

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Boyle's Law According to Adiabatic Process Solution

Follow our step by step solution on how to calculate Boyle's Law According to Adiabatic Process?

FIRST Step Consider the formula

R a = p c \cdot (v^{C})

Next Step Substitute values of Variables

∴

R a = 60Pa \cdot ({11m³/kg}^{0.5})

Next Step Prepare to Evaluate

∴

R a = 60 \cdot (11^{0.5})

Next Step Evaluate

∴

R a = 198.997487421324J/kg*K

LAST Step Rounding Answer

∴

R a = 198.9975J/kg*K

Boyle's Law According to Adiabatic Process Formula Elements

Variables

Gas Constant a

Gas Constant a, provides a correction for intermolecular forces and is a characteristic of the individual gas.

Symbol: R_a

Measurement: Specific EntropyUnit: J/kg*K

Note: Value should be greater than 0.

Formulas to find Gas Constant a

Pressure of Compressible Flow

Pressure of Compressible Flow is the force applied perpendicular to the surface of an object per unit area over which that force is distributed.

Symbol: p_c

Measurement: PressureUnit: Pa

Note: Value should be greater than 0.

Formulas to find Pressure of Compressible Flow

Specific Volume

Specific Volume of the body is its volume per unit mass.

Symbol: v

Measurement: Specific VolumeUnit: m³/kg

Note: Value should be greater than 0.

Formulas to find Specific Volume

Heat Capacity Ratio

Heat Capacity Ratio is the ratio of specific heats of a substance at constant pressure and constant volume.

Symbol: C

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Heat Capacity Ratio

Other Formulas to find Gas Constant a

Go Boyle's Law According to Isothermal Process

R a = p c \cdot v

Go Boyle's Law given Mass Density

R a = \frac{p c}{{ρ f}^{C}}

Go Boyle's Law given Weight Density in Adiabatic Process

R a = \frac{p c}{ω^{C}}

How to Evaluate Boyle's Law According to Adiabatic Process?

Boyle's Law According to Adiabatic Process evaluator uses Gas Constant a = Pressure of Compressible Flow*(Specific Volume^Heat Capacity Ratio) to evaluate the Gas Constant a, The Boyle's Law According to Adiabatic Process is defined as a gas law which states that the pressure exerted by a gas (of given mass at constant temperature) is inversely proportional to the volume. Gas Constant a is denoted by R_a symbol.

How to evaluate Boyle's Law According to Adiabatic Process using this online evaluator? To use this online evaluator for Boyle's Law According to Adiabatic Process, enter Pressure of Compressible Flow (p_c), Specific Volume (v) & Heat Capacity Ratio (C) and hit the calculate button.

FAQs on Boyle's Law According to Adiabatic Process

What is the formula to find Boyle's Law According to Adiabatic Process?

The formula of Boyle's Law According to Adiabatic Process is expressed as Gas Constant a = Pressure of Compressible Flow*(Specific Volume^Heat Capacity Ratio). Here is an example- 198.9975 = 60*(11^0.5).

How to calculate Boyle's Law According to Adiabatic Process?

With Pressure of Compressible Flow (p_c), Specific Volume (v) & Heat Capacity Ratio (C) we can find Boyle's Law According to Adiabatic Process using the formula - Gas Constant a = Pressure of Compressible Flow*(Specific Volume^Heat Capacity Ratio).

What are the other ways to Calculate Gas Constant a?

Here are the different ways to Calculate Gas Constant a-

Gas Constant a=Pressure of Compressible Flow*Specific Volume
Gas Constant a=Pressure of Compressible Flow/(Mass Density of Fluid^Heat Capacity Ratio)
Gas Constant a=Pressure of Compressible Flow/(Weight Density^Heat Capacity Ratio)

Can the Boyle's Law According to Adiabatic Process be negative?

No, the Boyle's Law According to Adiabatic Process, measured in Specific Entropy cannot be negative.

Which unit is used to measure Boyle's Law According to Adiabatic Process?

Boyle's Law According to Adiabatic Process is usually measured using the Joule per Kilogram K[J/kg*K] for Specific Entropy. Calorie per Gram per Celcius[J/kg*K], Joule per Kilogram per Celcius[J/kg*K], Kilojoule per Kilogram per Celcius[J/kg*K] are the few other units in which Boyle's Law According to Adiabatic Process can be measured.

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Boyle's Law According to Adiabatic Process Formula

​GoBoyle's Law According to Isothermal Process Formula

​GoBoyle's Law given Mass Density Formula

Boyle's Law According to Adiabatic Process Example

Boyle's Law According to Adiabatic Process Solution

Boyle's Law According to Adiabatic Process Formula Elements

Other Formulas to find Gas Constant a

How to Evaluate Boyle's Law According to Adiabatic Process?

FAQs on Boyle's Law According to Adiabatic Process

Variable Name

GoBoyle's Law According to Isothermal Process Formula

GoBoyle's Law given Mass Density Formula