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Constant for External Work Done in Adiabatic process Introducing Pressure Formula

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

C = ((\frac{1}{w}) \cdot (P 1 \cdot v 1 - P 2 \cdot v 2)) + 1

C - Heat Capacity Ratio?w - Work Done?P₁ - Pressure 1?v₁ - Specific Volume for Point 1?P₂ - Pressure 2?v₂ - Specific Volume for Point 2?

Constant for External Work Done in Adiabatic process Introducing Pressure Example

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Here is how the Constant for External Work Done in Adiabatic process Introducing Pressure equation looks like with Values.

Here is how the Constant for External Work Done in Adiabatic process Introducing Pressure equation looks like with Units.

Here is how the Constant for External Work Done in Adiabatic process Introducing Pressure equation looks like.

0.5227 = ((\frac{1}{30}) \cdot (2.5 \cdot 1.64 - 5.2 \cdot 0.816)) + 1

0.5227 = ((\frac{1}{30KJ}) \cdot (2.5Bar \cdot 1.64m³/kg - 5.2Bar \cdot 0.816m³/kg)) + 1

0.5227 = ((\frac{1}{30}) \cdot (2.5 \cdot 1.64 - 5.2 \cdot 0.816)) + 1

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Constant for External Work Done in Adiabatic process Introducing Pressure Solution

Follow our step by step solution on how to calculate Constant for External Work Done in Adiabatic process Introducing Pressure?

FIRST Step Consider the formula

C = ((\frac{1}{w}) \cdot (P 1 \cdot v 1 - P 2 \cdot v 2)) + 1

Next Step Substitute values of Variables

∴

C = ((\frac{1}{30KJ}) \cdot (2.5Bar \cdot 1.64m³/kg - 5.2Bar \cdot 0.816m³/kg)) + 1

Next Step Convert Units

∴

C = ((\frac{1}{30000J}) \cdot (250000Pa \cdot 1.64m³/kg - 520000Pa \cdot 0.816m³/kg)) + 1

Next Step Prepare to Evaluate

∴

C = ((\frac{1}{30000}) \cdot (250000 \cdot 1.64 - 520000 \cdot 0.816)) + 1

Next Step Evaluate

∴

C = 0.522666666666667

LAST Step Rounding Answer

∴

C = 0.5227

Constant for External Work Done in Adiabatic process Introducing Pressure Formula Elements

Variables

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

Work Done

Work Done refers to the amount of energy transferred or expended when a force acts on an object and causes displacement.

Symbol: w

Measurement: EnergyUnit: KJ

Note: Value should be greater than 0.

Formulas to find Work Done

Pressure 1

Pressure 1 is the pressure at give point 1.

Symbol: P₁

Measurement: PressureUnit: Bar

Note: Value should be greater than 0.

Formulas to find Pressure 1

Specific Volume for Point 1

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.

Symbol: v₁

Measurement: Specific VolumeUnit: m³/kg

Note: Value should be greater than 0.

Formulas to find Specific Volume for Point 1

Pressure 2

Pressure 2 is the pressure at give point 2.

Symbol: P₂

Measurement: PressureUnit: Bar

Note: Value should be greater than 0.

Formulas to find Pressure 2

Specific Volume for 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.

Symbol: v₂

Measurement: Specific VolumeUnit: m³/kg

Note: Value should be greater than 0.

Formulas to find Specific Volume for Point 2

Other formulas in Basic Relationship of Thermodynamics category

Go Pressure given Constant

p c = \frac{R a}{v}

Go Absolute Pressure given Absolute Temperature

P abs = ρ gas \cdot R specific \cdot T Abs

Go Mass Density given Absolute Pressure

ρ gas = \frac{P abs}{R specific \cdot T Abs}

Go Gas Constant given Absolute Pressure

R specific = \frac{P abs}{ρ gas \cdot T Abs}

How to Evaluate Constant for External Work Done in Adiabatic process Introducing Pressure?

Constant for External Work Done in Adiabatic process Introducing Pressure evaluator uses Heat Capacity Ratio = ((1/Work Done)*(Pressure 1*Specific Volume for Point 1-Pressure 2*Specific Volume for Point 2))+1 to evaluate the Heat Capacity Ratio, Constant for External Work Done in Adiabatic process Introducing Pressure is defined as the ratio of specific heat at constant pressure and that at constant volume. Heat Capacity Ratio is denoted by C symbol.

How to evaluate Constant for External Work Done in Adiabatic process Introducing Pressure using this online evaluator? To use this online evaluator for Constant for External Work Done in Adiabatic process Introducing Pressure, enter Work Done (w), Pressure 1 (P₁), Specific Volume for Point 1 (v₁), Pressure 2 (P₂) & Specific Volume for Point 2 (v₂) and hit the calculate button.

FAQs on Constant for External Work Done in Adiabatic process Introducing Pressure

What is the formula to find Constant for External Work Done in Adiabatic process Introducing Pressure?

The formula of Constant for External Work Done in Adiabatic process Introducing Pressure is expressed as Heat Capacity Ratio = ((1/Work Done)*(Pressure 1*Specific Volume for Point 1-Pressure 2*Specific Volume for Point 2))+1. Here is an example- 0.522667 = ((1/30000)*(250000*1.64-520000*0.816))+1.

How to calculate Constant for External Work Done in Adiabatic process Introducing Pressure?

With Work Done (w), Pressure 1 (P₁), Specific Volume for Point 1 (v₁), Pressure 2 (P₂) & Specific Volume for Point 2 (v₂) we can find Constant for External Work Done in Adiabatic process Introducing Pressure using the formula - Heat Capacity Ratio = ((1/Work Done)*(Pressure 1*Specific Volume for Point 1-Pressure 2*Specific Volume for Point 2))+1.

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Constant for External Work Done in Adiabatic process Introducing Pressure Formula

Constant for External Work Done in Adiabatic process Introducing Pressure Example

Constant for External Work Done in Adiabatic process Introducing Pressure Solution

Constant for External Work Done in Adiabatic process Introducing Pressure Formula Elements

Other formulas in Basic Relationship of Thermodynamics category

How to Evaluate Constant for External Work Done in Adiabatic process Introducing Pressure?

FAQs on Constant for External Work Done in Adiabatic process Introducing Pressure

Variable Name