Prandtl Meyer Function Solution

STEP 0: Pre-Calculation Summary
Formula Used
Prandtl Meyer Function = sqrt((Specific Heat Ratio Expansion Wave+1)/(Specific Heat Ratio Expansion Wave-1))*atan(sqrt(((Specific Heat Ratio Expansion Wave-1)*(Mach Number^2-1))/(Specific Heat Ratio Expansion Wave+1)))-atan(sqrt(Mach Number^2-1))
νM = sqrt((γe+1)/(γe-1))*atan(sqrt(((γe-1)*(M^2-1))/(γe+1)))-atan(sqrt(M^2-1))
This formula uses 3 Functions, 3 Variables
Functions Used
tan - The tangent of an angle is a trigonometric ratio of the length of the side opposite an angle to the length of the side adjacent to an angle in a right triangle., tan(Angle)
atan - Inverse tan is used to calculate the angle by applying the tangent ratio of the angle, which is the opposite side divided by the adjacent side of the right triangle., atan(Number)
sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)
Variables Used
Prandtl Meyer Function - (Measured in Radian) - Prandtl Meyer Function calculates the turning angle of supersonic flows around corners or through expansion fans.
Specific Heat Ratio Expansion Wave - The Specific Heat Ratio Expansion Wave is the ratio of the heat capacity at constant pressure to heat capacity at constant volume.
Mach Number - Mach Number is a dimensionless quantity representing the ratio of flow velocity to the local speed of sound.
STEP 1: Convert Input(s) to Base Unit
Specific Heat Ratio Expansion Wave: 1.41 --> No Conversion Required
Mach Number: 8 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
νM = sqrt((γe+1)/(γe-1))*atan(sqrt(((γe-1)*(M^2-1))/(γe+1)))-atan(sqrt(M^2-1)) --> sqrt((1.41+1)/(1.41-1))*atan(sqrt(((1.41-1)*(8^2-1))/(1.41+1)))-atan(sqrt(8^2-1))
Evaluating ... ...
νM = 1.64413649773194
STEP 3: Convert Result to Output's Unit
1.64413649773194 Radian -->94.2020822634783 Degree (Check conversion ​here)
FINAL ANSWER
94.2020822634783 94.20208 Degree <-- Prandtl Meyer Function
(Calculation completed in 00.004 seconds)

Credits

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Created by Shikha Maurya
Indian Institute of Technology (IIT), Bombay
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Verified by Vinay Mishra
Indian Institute for Aeronautical Engineering and Information Technology (IIAEIT), Pune
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Expansion Waves Calculators

Pressure behind Expansion Fan
​ LaTeX ​ Go Pressure Behind Expansion Fan = Pressure Ahead of Expansion Fan*((1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Ahead of Expansion Fan^2)/(1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Behind Expansion Fan^2))^((Specific Heat Ratio Expansion Wave)/(Specific Heat Ratio Expansion Wave-1))
Pressure Ratio across Expansion Fan
​ LaTeX ​ Go Pressure Ratio Across Expansion Fan = ((1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Ahead of Expansion Fan^2)/(1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Behind Expansion Fan^2))^((Specific Heat Ratio Expansion Wave)/(Specific Heat Ratio Expansion Wave-1))
Temperature behind Expansion Fan
​ LaTeX ​ Go Temperature Behind Expansion Fan = Temperature Ahead of Expansion Fan*((1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Ahead of Expansion Fan^2)/(1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Behind Expansion Fan^2))
Temperature Ratio across Expansion Fan
​ LaTeX ​ Go Temperature Ratio Across Expansion Fan = (1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Ahead of Expansion Fan^2)/(1+0.5*(Specific Heat Ratio Expansion Wave-1)*Mach Number Behind Expansion Fan^2)

Prandtl Meyer Function Formula

​LaTeX ​Go
Prandtl Meyer Function = sqrt((Specific Heat Ratio Expansion Wave+1)/(Specific Heat Ratio Expansion Wave-1))*atan(sqrt(((Specific Heat Ratio Expansion Wave-1)*(Mach Number^2-1))/(Specific Heat Ratio Expansion Wave+1)))-atan(sqrt(Mach Number^2-1))
νM = sqrt((γe+1)/(γe-1))*atan(sqrt(((γe-1)*(M^2-1))/(γe+1)))-atan(sqrt(M^2-1))

How to obtain the maximum angle by which a sonic flow can be turned around convex corner?

The maximum angle through which a sonic (M = 1) flow can be turned around a convex corner is obtained by evaluating Prandtl Meyer function at infinite downstream Mach number and unit upstream Mach number and then subtracting the upstream value of the Prandtl Meyer function with the downstream value.

How to Calculate Prandtl Meyer Function?

Prandtl Meyer Function calculator uses Prandtl Meyer Function = sqrt((Specific Heat Ratio Expansion Wave+1)/(Specific Heat Ratio Expansion Wave-1))*atan(sqrt(((Specific Heat Ratio Expansion Wave-1)*(Mach Number^2-1))/(Specific Heat Ratio Expansion Wave+1)))-atan(sqrt(Mach Number^2-1)) to calculate the Prandtl Meyer Function, The Prandtl Meyer function, denoted as is a fundamental concept in compressible fluid dynamics, particularly in the study of supersonic flows. It represents the angle by which a supersonic flow must be turned to achieve a specified Mach number. Prandtl Meyer Function is denoted by νM symbol.

How to calculate Prandtl Meyer Function using this online calculator? To use this online calculator for Prandtl Meyer Function, enter Specific Heat Ratio Expansion Wave e) & Mach Number (M) and hit the calculate button. Here is how the Prandtl Meyer Function calculation can be explained with given input values -> 5397.382 = sqrt((1.41+1)/(1.41-1))*atan(sqrt(((1.41-1)*(8^2-1))/(1.41+1)))-atan(sqrt(8^2-1)).

FAQ

What is Prandtl Meyer Function?
The Prandtl Meyer function, denoted as is a fundamental concept in compressible fluid dynamics, particularly in the study of supersonic flows. It represents the angle by which a supersonic flow must be turned to achieve a specified Mach number and is represented as νM = sqrt((γe+1)/(γe-1))*atan(sqrt(((γe-1)*(M^2-1))/(γe+1)))-atan(sqrt(M^2-1)) or Prandtl Meyer Function = sqrt((Specific Heat Ratio Expansion Wave+1)/(Specific Heat Ratio Expansion Wave-1))*atan(sqrt(((Specific Heat Ratio Expansion Wave-1)*(Mach Number^2-1))/(Specific Heat Ratio Expansion Wave+1)))-atan(sqrt(Mach Number^2-1)). The Specific Heat Ratio Expansion Wave is the ratio of the heat capacity at constant pressure to heat capacity at constant volume & Mach Number is a dimensionless quantity representing the ratio of flow velocity to the local speed of sound.
How to calculate Prandtl Meyer Function?
The Prandtl Meyer function, denoted as is a fundamental concept in compressible fluid dynamics, particularly in the study of supersonic flows. It represents the angle by which a supersonic flow must be turned to achieve a specified Mach number is calculated using Prandtl Meyer Function = sqrt((Specific Heat Ratio Expansion Wave+1)/(Specific Heat Ratio Expansion Wave-1))*atan(sqrt(((Specific Heat Ratio Expansion Wave-1)*(Mach Number^2-1))/(Specific Heat Ratio Expansion Wave+1)))-atan(sqrt(Mach Number^2-1)). To calculate Prandtl Meyer Function, you need Specific Heat Ratio Expansion Wave e) & Mach Number (M). With our tool, you need to enter the respective value for Specific Heat Ratio Expansion Wave & Mach Number 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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