Viscosity of Liquid for Drag Force on Plate Solution

STEP 0: Pre-Calculation Summary
Formula Used
Viscosity of Fluid for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(0.73*Breadth of Plate for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow))
μ = FD/(0.73*b*V*sqrt(Re))
This formula uses 1 Functions, 5 Variables
Functions Used
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
Viscosity of Fluid for Boundary Layer Flow - (Measured in Pascal Second) - Viscosity of Fluid for boundary layer flow is a measure of fluid's resistance to deformation at a given rate.
Drag Force on Boundary Layer Flow Plate - (Measured in Newton) - Drag Force on Boundary Layer Flow Plate is the resisting force experienced by an object moving through a fluid.
Breadth of Plate for Boundary Layer Flow - (Measured in Meter) - Breadth of plate for boundary layer flow is the measurement or extent of plate from side to side.
Freestream Velocity for Boundary Layer Flow - (Measured in Meter per Second) - Freestream velocity for boundary layer flow is the velocity of fluid far upstream of a body, that is before the body has a chance to deflect, slow down the fluid.
Reynolds Number for Boundary Layer Flow - Reynolds Number for boundary layer flow is the ratio of inertial forces to viscous forces within a fluid which is subjected to relative internal movement due to different fluid velocities.
STEP 1: Convert Input(s) to Base Unit
Drag Force on Boundary Layer Flow Plate: 0.03 Newton --> 0.03 Newton No Conversion Required
Breadth of Plate for Boundary Layer Flow: 0.74 Meter --> 0.74 Meter No Conversion Required
Freestream Velocity for Boundary Layer Flow: 0.15 Meter per Second --> 0.15 Meter per Second No Conversion Required
Reynolds Number for Boundary Layer Flow: 150000 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
μ = FD/(0.73*b*V*sqrt(Re)) --> 0.03/(0.73*0.74*0.15*sqrt(150000))
Evaluating ... ...
μ = 0.000955938133088342
STEP 3: Convert Result to Output's Unit
0.000955938133088342 Pascal Second -->0.000955938133088342 Newton Second per Square Meter (Check conversion here)
FINAL ANSWER
0.000955938133088342 0.000956 Newton Second per Square Meter <-- Viscosity of Fluid for Boundary Layer Flow
(Calculation completed in 00.004 seconds)

Credits

Created by Maiarutselvan V
PSG College of Technology (PSGCT), Coimbatore
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Indian Institute of Technology (IIT), Bombay
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21 Boundary Layer Flow Calculators

Shear Stress at Boundary for Turbulent Boundary Layer over Flat Plate
Go Shear Stress for Boundary Layer Flow = 0.0225*Fluid Density for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow^2*(Viscosity of Fluid for Boundary Layer Flow/(Fluid Density for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*Thickness of Boundary Layer))^(1/4)
Viscosity of Liquid for Drag Force on Plate
Go Viscosity of Fluid for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(0.73*Breadth of Plate for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow))
Width of Plate for Drag Force on Plate
Go Breadth of Plate for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(0.73*Viscosity of Fluid for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow))
Drag Force on Plate
Go Drag Force on Boundary Layer Flow Plate = 0.73*Breadth of Plate for Boundary Layer Flow*Viscosity of Fluid for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow)
Reynold Number for Drag Force on Plate
Go Reynolds Number for Boundary Layer Flow = (Drag Force on Boundary Layer Flow Plate/(0.73*Breadth of Plate for Boundary Layer Flow*Viscosity of Fluid for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow))^2
Area of Surface for Average Drag Coefficient
Go Area of Surface for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(1/2*Coefficient of Drag for Boundary Layer Flow*Fluid Density for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow^2)
Average Coefficient of Drag for Drag Force
Go Coefficient of Drag for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(1/2*Fluid Density for Boundary Layer Flow*Area of Surface for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow^2)
Drag Force for Average Drag Coefficient
Go Drag Force on Boundary Layer Flow Plate = 1/2*Coefficient of Drag for Boundary Layer Flow*Fluid Density for Boundary Layer Flow*Area of Surface for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow^2
Velocity of Fluid for Reynold Number
Go Freestream Velocity for Boundary Layer Flow = (Reynolds Number for Boundary Layer Flow*Viscosity of Fluid for Boundary Layer Flow)/(Fluid Density for Boundary Layer Flow*Length of Plate for Boundary Layer Flow)
Length of Plate for Reynold Number
Go Length of Plate for Boundary Layer Flow = (Reynolds Number for Boundary Layer Flow*Viscosity of Fluid for Boundary Layer Flow)/(Fluid Density for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow)
Reynold Number at End of Plate
Go Reynolds Number for Boundary Layer Flow = (Fluid Density for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*Length of Plate for Boundary Layer Flow)/Viscosity of Fluid for Boundary Layer Flow
Freestream Velocity for Local Drag Coefficient
Go Freestream Velocity for Boundary Layer Flow = sqrt(Shear Stress for Boundary Layer Flow/(1/2*Fluid Density for Boundary Layer Flow*Local Drag Coefficient for Boundary Layer))
Local Drag Coefficient for Shear Stress
Go Local Drag Coefficient for Boundary Layer = Shear Stress for Boundary Layer Flow/(1/2*Fluid Density for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow^2)
Shear Stress for Local Drag Coefficient
Go Shear Stress for Boundary Layer Flow = 1/2*Local Drag Coefficient for Boundary Layer*Fluid Density for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow^2
Thickness of Boundary Layer for Blasius's Solution
Go Thickness of Boundary Layer = (4.91*Distance Leading Edge for Boundary Layer Flow)/(sqrt(Reynolds Number for Boundary Layer Flow))
Thickness of Boundary Layer
Go Thickness of Boundary Layer = (5.48*Distance Leading Edge for Boundary Layer Flow)/(sqrt(Reynolds Number for Boundary Layer Flow))
Distance from Leading Edge
Go Distance Leading Edge for Boundary Layer Flow = Thickness of Boundary Layer*(sqrt(Reynolds Number for Boundary Layer Flow))/5.48
Distance from Leading Edge for Blasius's Solution
Go Distance Leading Edge for Boundary Layer Flow = Thickness of Boundary Layer*sqrt(Reynolds Number for Boundary Layer Flow)/4.91
Coefficient of Drag for Blasius's Solution
Go Coefficient of Drag for Boundary Layer Flow = 1.328/(sqrt(Reynolds Number for Boundary Layer Flow))
Coefficient of Drag for Reynold Number
Go Coefficient of Drag for Boundary Layer Flow = 1.46/sqrt(Reynolds Number for Boundary Layer Flow)
Reynold Number for Drag Coefficient in Blasius's Solution
Go Reynolds Number for Boundary Layer Flow = (1.328/Coefficient of Drag for Boundary Layer Flow)^2

Viscosity of Liquid for Drag Force on Plate Formula

Viscosity of Fluid for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(0.73*Breadth of Plate for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow))
μ = FD/(0.73*b*V*sqrt(Re))

What is Reynolds number in boundary layer flow?

The Reynolds number is the ratio of inertial forces to viscous forces within a fluid that is subjected to relative internal movement due to different fluid velocities. A region where these forces change behavior is known as a boundary layer, such as the bounding surface in the interior of a pipe.

What are the two types of flow associated with the boundary layer?

There are two different types of boundary layer flow: laminar and turbulent. The laminar boundary is a very smooth flow, while the turbulent boundary layer contains swirls or "eddies." The laminar flow creates less skin friction drag than the turbulent flow but is less stable.

How to Calculate Viscosity of Liquid for Drag Force on Plate?

Viscosity of Liquid for Drag Force on Plate calculator uses Viscosity of Fluid for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(0.73*Breadth of Plate for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow)) to calculate the Viscosity of Fluid for Boundary Layer Flow, The Viscosity of liquid for drag force on plate formula is known while considering the drag force on the plate by the width of the plate, the velocity of the fluid, and the Reynolds number at the plate. Viscosity of Fluid for Boundary Layer Flow is denoted by μ symbol.

How to calculate Viscosity of Liquid for Drag Force on Plate using this online calculator? To use this online calculator for Viscosity of Liquid for Drag Force on Plate, enter Drag Force on Boundary Layer Flow Plate (FD), Breadth of Plate for Boundary Layer Flow (b), Freestream Velocity for Boundary Layer Flow (V) & Reynolds Number for Boundary Layer Flow (Re) and hit the calculate button. Here is how the Viscosity of Liquid for Drag Force on Plate calculation can be explained with given input values -> 0.000956 = 0.03/(0.73*0.74*0.15*sqrt(150000)).

FAQ

What is Viscosity of Liquid for Drag Force on Plate?
The Viscosity of liquid for drag force on plate formula is known while considering the drag force on the plate by the width of the plate, the velocity of the fluid, and the Reynolds number at the plate and is represented as μ = FD/(0.73*b*V*sqrt(Re)) or Viscosity of Fluid for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(0.73*Breadth of Plate for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow)). Drag Force on Boundary Layer Flow Plate is the resisting force experienced by an object moving through a fluid, Breadth of plate for boundary layer flow is the measurement or extent of plate from side to side, Freestream velocity for boundary layer flow is the velocity of fluid far upstream of a body, that is before the body has a chance to deflect, slow down the fluid & Reynolds Number for boundary layer flow is the ratio of inertial forces to viscous forces within a fluid which is subjected to relative internal movement due to different fluid velocities.
How to calculate Viscosity of Liquid for Drag Force on Plate?
The Viscosity of liquid for drag force on plate formula is known while considering the drag force on the plate by the width of the plate, the velocity of the fluid, and the Reynolds number at the plate is calculated using Viscosity of Fluid for Boundary Layer Flow = Drag Force on Boundary Layer Flow Plate/(0.73*Breadth of Plate for Boundary Layer Flow*Freestream Velocity for Boundary Layer Flow*sqrt(Reynolds Number for Boundary Layer Flow)). To calculate Viscosity of Liquid for Drag Force on Plate, you need Drag Force on Boundary Layer Flow Plate (FD), Breadth of Plate for Boundary Layer Flow (b), Freestream Velocity for Boundary Layer Flow (V) & Reynolds Number for Boundary Layer Flow (Re). With our tool, you need to enter the respective value for Drag Force on Boundary Layer Flow Plate, Breadth of Plate for Boundary Layer Flow, Freestream Velocity for Boundary Layer Flow & Reynolds Number for Boundary Layer Flow 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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