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Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves Formula

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Pressure Ratio is ratio of final to initial pressure. Check FAQs

r p = {(1 - (\frac{γ - 1}{2}) \cdot (\frac{u'}{c speed}))}^{2 \cdot \frac{γ}{γ - 1}}

r_p - Pressure Ratio?γ - Specific Heat Ratio?u' - Induced Mass Motion?c_speed - Speed of Sound?

Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves Example

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Here is how the Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves equation looks like with Values.

Here is how the Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves equation looks like with Units.

Here is how the Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves equation looks like.

0.961 = {(1 - (\frac{1.6 - 1}{2}) \cdot (\frac{8.5}{343}))}^{2 \cdot \frac{1.6}{1.6 - 1}}

0.961 = {(1 - (\frac{1.6 - 1}{2}) \cdot (\frac{8.5kg·m²}{343m/s}))}^{2 \cdot \frac{1.6}{1.6 - 1}}

0.961 = {(1 - (\frac{1.6 - 1}{2}) \cdot (\frac{8.5}{343}))}^{2 \cdot \frac{1.6}{1.6 - 1}}

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Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves Solution

Follow our step by step solution on how to calculate Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves?

FIRST Step Consider the formula

r p = {(1 - (\frac{γ - 1}{2}) \cdot (\frac{u'}{c speed}))}^{2 \cdot \frac{γ}{γ - 1}}

Next Step Substitute values of Variables

∴

r p = {(1 - (\frac{1.6 - 1}{2}) \cdot (\frac{8.5kg·m²}{343m/s}))}^{2 \cdot \frac{1.6}{1.6 - 1}}

Next Step Prepare to Evaluate

∴

r p = {(1 - (\frac{1.6 - 1}{2}) \cdot (\frac{8.5}{343}))}^{2 \cdot \frac{1.6}{1.6 - 1}}

Next Step Evaluate

∴

r p = 0.960983280745636

LAST Step Rounding Answer

∴

r p = 0.961

Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves Formula Elements

Variables

Pressure Ratio

Pressure Ratio is ratio of final to initial pressure.

Symbol: r_p

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Pressure Ratio

Specific Heat Ratio

The Specific heat ratio of a gas is the ratio of the specific heat of the gas at a constant pressure to its specific heat at a constant volume.

Symbol: γ

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Specific Heat Ratio

Induced Mass Motion

Induced Mass Motion, added mass or virtual mass is the inertia added to a system because an accelerating or decelerating body must move some volume of surrounding fluid as it moves through it.

Symbol: u'

Measurement: Moment of InertiaUnit: kg·m²

Note: Value should be greater than 0.

Formulas to find Induced Mass Motion

Speed of Sound

The speed of sound is defined as the dynamic propagation of sound waves.

Symbol: c_speed

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Speed of Sound

Other formulas in Expansion Waves category

Go Density before Shock Formation for Expansion Wave

ρ 2 = \frac{p 01}{{(1 - (\frac{γ - 1}{2}) \cdot (\frac{Vn}{c old}))}^{2 \cdot \frac{γ}{γ - t sec}}}

Go New Pressure after Shock Formation, Subtracted to Velocity for Expansion Wave

P = ρ 1 \cdot {(1 - (\frac{γ - 1}{2}) \cdot (\frac{Vn}{c old}))}^{2 \cdot \frac{γ}{γ - t sec}}

Go Ratio of New and Old Temperature for Expansion Waves

Tshock ratio = {(1 - (\frac{γ - 1}{2}) \cdot (\frac{Vn}{c old}))}^{2}

Go Temperature Ratio for Unsteady Expansion Wave

T ratio = {(1 - (\frac{γ - 1}{2}) \cdot (\frac{u'}{c speed}))}^{2}

How to Evaluate Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves?

Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves evaluator uses Pressure Ratio = (1-((Specific Heat Ratio-1)/2)*(Induced Mass Motion/Speed of Sound))^(2*Specific Heat Ratio/(Specific Heat Ratio-1)) to evaluate the Pressure Ratio, Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves formula is defined as a dimensionless quantity that characterizes the pressure variation in unsteady waves propagating through a compressible fluid, specifically in the context of hypersonic inviscid flow, where the effects of induced mass motion are significant. Pressure Ratio is denoted by r_p symbol.

How to evaluate Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves using this online evaluator? To use this online evaluator for Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves, enter Specific Heat Ratio (γ), Induced Mass Motion (u') & Speed of Sound (c_speed) and hit the calculate button.

FAQs on Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves

What is the formula to find Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves?

The formula of Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves is expressed as Pressure Ratio = (1-((Specific Heat Ratio-1)/2)*(Induced Mass Motion/Speed of Sound))^(2*Specific Heat Ratio/(Specific Heat Ratio-1)). Here is an example- 0.960983 = (1-((1.6-1)/2)*(8.5/343))^(2*1.6/(1.6-1)).

How to calculate Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves?

With Specific Heat Ratio (γ), Induced Mass Motion (u') & Speed of Sound (c_speed) we can find Pressure Ratio for Unsteady Waves with Subtracted Induced Mass Motion for Expansion Waves using the formula - Pressure Ratio = (1-((Specific Heat Ratio-1)/2)*(Induced Mass Motion/Speed of Sound))^(2*Specific Heat Ratio/(Specific Heat Ratio-1)).

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