Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length Solution

STEP 0: Pre-Calculation Summary
Formula Used
Scale Factor for Fluid Viscosity = Scale Factor for Length^2/Scale Factor for the Time of Reynolds Scaling
αν = αL^2/αTR
This formula uses 3 Variables
Variables Used
Scale Factor for Fluid Viscosity - Scale Factor for Fluid Viscosity is the ratio between dynamic viscosity of reference fluid and dynamic viscosity of actual fluid.
Scale Factor for Length - Scale Factor for Length refers to the ratio by which dimensions are enlarged or reduced in proportion to an original size.
Scale Factor for the Time of Reynolds Scaling - Scale Factor for the Time of Reynolds Scaling is defined as the factor between model and prototype when reynolds number is identical as per reynolds scaling.
STEP 1: Convert Input(s) to Base Unit
Scale Factor for Length: 18 --> No Conversion Required
Scale Factor for the Time of Reynolds Scaling: 324.0001 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
αν = αL^2/αTR --> 18^2/324.0001
Evaluating ... ...
αν = 0.99999969135812
STEP 3: Convert Result to Output's Unit
0.99999969135812 --> No Conversion Required
FINAL ANSWER
0.99999969135812 1 <-- Scale Factor for Fluid Viscosity
(Calculation completed in 00.004 seconds)

Credits

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Coorg Institute of Technology (CIT), Coorg
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15 Scale Factor Calculators

Scale Factor for Velocity given Scale Factor for Inertia Forces
Go Scale Factor for Velocity = sqrt(Scale Factor for Inertia Forces/(Scale Factor for Density of Fluid*Scale Factor for Length^2))
Scale Factor for Length given Scale Factor for Inertia Forces
Go Scale Factor for Length = sqrt(Scale Factor for Inertia Forces/(Scale Factor for Density of Fluid*Scale Factor for Velocity^2))
Scale Factor for Density of Fluid given Scale Factor for Inertia Forces
Go Scale Factor for Density of Fluid = Scale Factor for Inertia Forces/(Scale Factor for Velocity^2*Scale Factor for Length^2)
Scale Factor for Inertia Forces
Go Scale Factor for Inertia Forces = Scale Factor for Density of Fluid*Scale Factor for Velocity^2*Scale Factor for Length^2
Scale Factor for Length given Scale Factor for Time and Kinematic Viscosity
Go Scale Factor for Length = sqrt(Scale Factor for the Time of Reynolds Scaling*Scale Factor for Fluid Viscosity)
Scale Factor for Velocity given Scale Factor for Acceleration
Go Scale Factor for Velocity = sqrt(Scale Factor for the Acceleration*Scale Factor for Length)
Scale Factor for Time given Scale Factor for Length and Kinematic Viscosity
Go Scale Factor for the Time of Reynolds Scaling = Scale Factor for Length^2/Scale Factor for Fluid Viscosity
Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length
Go Scale Factor for Fluid Viscosity = Scale Factor for Length^2/Scale Factor for the Time of Reynolds Scaling
Scale Factor for Time given Scale Factor for Acceleration
Go Scale Factor for the Time = (Scale Factor for Velocity/Scale Factor for the Acceleration)
Scale Factor for Acceleration given Scale Factor for Time and Velocity
Go Scale Factor for the Acceleration = Scale Factor for Velocity/Scale Factor for the Time
Scale Factor for Length given Scale Factor for Acceleration
Go Scale Factor for Length = Scale Factor for Velocity^2/Scale Factor for the Acceleration
Scale Factor for Acceleration
Go Scale Factor for the Acceleration = Scale Factor for Velocity^2/Scale Factor for Length
Scale Factor for Velocity given Scale Factor for Time
Go Scale Factor for Velocity = Scale Factor for Length/Scale Factor for the Time
Scale Factor for Time
Go Scale Factor for the Time = sqrt(Scale Factor for Length)
Scale Factor for Length given Scale Factor for Time
Go Scale Factor for Length = Scale Factor for the Time^(2)

Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length Formula

Scale Factor for Fluid Viscosity = Scale Factor for Length^2/Scale Factor for the Time of Reynolds Scaling
αν = αL^2/αTR

What is Reynolds number?

The Reynolds number is the ratio of inertial forces to viscous forces within a fluid which is subjected to relative internal movement due to different fluid velocities. The ability to predict the onset of turbulent flow is an important design tool for equipment such as piping systems or aircraft wings, but the Reynolds number is also used in scaling of fluid dynamics problems, and is used to determine dynamic similitude between two different cases of fluid flow, such as between a model aircraft, and its full-size version. Such scaling is not linear and the application of Reynolds numbers to both situations allows scaling factors to be developed.

How to Calculate Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length?

Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length calculator uses Scale Factor for Fluid Viscosity = Scale Factor for Length^2/Scale Factor for the Time of Reynolds Scaling to calculate the Scale Factor for Fluid Viscosity, The Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length using Reynolds scaling is defined when inertia and viscous forces are of predominant importance in the flow. Scale Factor for Fluid Viscosity is denoted by αν symbol.

How to calculate Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length using this online calculator? To use this online calculator for Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length, enter Scale Factor for Length (αL) & Scale Factor for the Time of Reynolds Scaling TR) and hit the calculate button. Here is how the Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length calculation can be explained with given input values -> 1 = 18^2/324.0001.

FAQ

What is Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length?
The Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length using Reynolds scaling is defined when inertia and viscous forces are of predominant importance in the flow and is represented as αν = αL^2/αTR or Scale Factor for Fluid Viscosity = Scale Factor for Length^2/Scale Factor for the Time of Reynolds Scaling. Scale Factor for Length refers to the ratio by which dimensions are enlarged or reduced in proportion to an original size & Scale Factor for the Time of Reynolds Scaling is defined as the factor between model and prototype when reynolds number is identical as per reynolds scaling.
How to calculate Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length?
The Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length using Reynolds scaling is defined when inertia and viscous forces are of predominant importance in the flow is calculated using Scale Factor for Fluid Viscosity = Scale Factor for Length^2/Scale Factor for the Time of Reynolds Scaling. To calculate Scale Factor for Kinematic Viscosity given Scale Factor for Time and Length, you need Scale Factor for Length (αL) & Scale Factor for the Time of Reynolds Scaling TR). With our tool, you need to enter the respective value for Scale Factor for Length & Scale Factor for the Time of Reynolds Scaling 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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