Torque Required to Overcome Viscous Resistance in Foot-Step Bearing Solution

STEP 0: Pre-Calculation Summary
Formula Used
Torque Exerted on Wheel = (Viscosity of Fluid*pi^2*Mean Speed in RPM*(Shaft Diameter/2)^4)/Thickness of Oil Film
τ = (μ*pi^2*N*(Ds/2)^4)/t
This formula uses 1 Constants, 5 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Torque Exerted on Wheel - (Measured in Newton Meter) - Torque Exerted on Wheel is described as the turning effect of force on the axis of rotation. In brief, it is a moment of force. It is characterized by τ.
Viscosity of Fluid - (Measured in Pascal Second) - The Viscosity of fluid is a measure of its resistance to deformation at a given rate.
Mean Speed in RPM - (Measured in Hertz) - Mean Speed in RPM is an average of individual vehicle speeds.
Shaft Diameter - (Measured in Meter) - Shaft Diameter is the diameter of the shaft of the pile.
Thickness of Oil Film - (Measured in Meter) - Thickness of Oil Film refers to the distance or dimension between the surfaces that are separated by a layer of oil.
STEP 1: Convert Input(s) to Base Unit
Viscosity of Fluid: 8.23 Newton Second per Square Meter --> 8.23 Pascal Second (Check conversion ​here)
Mean Speed in RPM: 1.069076 Revolution per Minute --> 0.0178179333333333 Hertz (Check conversion ​here)
Shaft Diameter: 14.90078 Meter --> 14.90078 Meter No Conversion Required
Thickness of Oil Film: 4.623171 Meter --> 4.623171 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
τ = (μ*pi^2*N*(Ds/2)^4)/t --> (8.23*pi^2*0.0178179333333333*(14.90078/2)^4)/4.623171
Evaluating ... ...
τ = 964.568291510521
STEP 3: Convert Result to Output's Unit
964.568291510521 Newton Meter --> No Conversion Required
FINAL ANSWER
964.568291510521 964.5683 Newton Meter <-- Torque Exerted on Wheel
(Calculation completed in 00.011 seconds)

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Shear Force or Viscous Resistance in Journal Bearing
​ LaTeX ​ Go Shear Force = (pi^2*Viscosity of Fluid*Mean Speed in RPM*Length of Pipe*Shaft Diameter^2)/(Thickness of Oil Film)
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Drag Force in Falling Sphere Resistance Method
​ LaTeX ​ Go Drag Force = 3*pi*Viscosity of Fluid*Velocity of Sphere*Diameter of Sphere

Torque Required to Overcome Viscous Resistance in Foot-Step Bearing Formula

​LaTeX ​Go
Torque Exerted on Wheel = (Viscosity of Fluid*pi^2*Mean Speed in RPM*(Shaft Diameter/2)^4)/Thickness of Oil Film
τ = (μ*pi^2*N*(Ds/2)^4)/t

What is viscous resistance in foot-step bearing?

When we need to rotate a vertical shaft inside a fixed bearing, the viscous oil will be placed between the top of the bearing and the bottom surface of the shaft. In order to reduce the wear and tear, oil film will be provided between the top of the bearing and bottom surface of the shaft.

What is foot step bearing?

A bearing designed to support a vertical shaft or spindle, typically taking the form of a block having a cavity that accommodates the lower part of a shaft.

How to Calculate Torque Required to Overcome Viscous Resistance in Foot-Step Bearing?

Torque Required to Overcome Viscous Resistance in Foot-Step Bearing calculator uses Torque Exerted on Wheel = (Viscosity of Fluid*pi^2*Mean Speed in RPM*(Shaft Diameter/2)^4)/Thickness of Oil Film to calculate the Torque Exerted on Wheel, Torque Required to Overcome Viscous Resistance in Foot-Step Bearing is the amount needed to counteract the frictional forces within the bearing's fluid film. Torque Exerted on Wheel is denoted by τ symbol.

How to calculate Torque Required to Overcome Viscous Resistance in Foot-Step Bearing using this online calculator? To use this online calculator for Torque Required to Overcome Viscous Resistance in Foot-Step Bearing, enter Viscosity of Fluid (μ), Mean Speed in RPM (N), Shaft Diameter (Ds) & Thickness of Oil Film (t) and hit the calculate button. Here is how the Torque Required to Overcome Viscous Resistance in Foot-Step Bearing calculation can be explained with given input values -> 964.5683 = (8.23*pi^2*0.0178179333333333*(14.90078/2)^4)/4.623171.

FAQ

What is Torque Required to Overcome Viscous Resistance in Foot-Step Bearing?
Torque Required to Overcome Viscous Resistance in Foot-Step Bearing is the amount needed to counteract the frictional forces within the bearing's fluid film and is represented as τ = (μ*pi^2*N*(Ds/2)^4)/t or Torque Exerted on Wheel = (Viscosity of Fluid*pi^2*Mean Speed in RPM*(Shaft Diameter/2)^4)/Thickness of Oil Film. The Viscosity of fluid is a measure of its resistance to deformation at a given rate, Mean Speed in RPM is an average of individual vehicle speeds, Shaft Diameter is the diameter of the shaft of the pile & Thickness of Oil Film refers to the distance or dimension between the surfaces that are separated by a layer of oil.
How to calculate Torque Required to Overcome Viscous Resistance in Foot-Step Bearing?
Torque Required to Overcome Viscous Resistance in Foot-Step Bearing is the amount needed to counteract the frictional forces within the bearing's fluid film is calculated using Torque Exerted on Wheel = (Viscosity of Fluid*pi^2*Mean Speed in RPM*(Shaft Diameter/2)^4)/Thickness of Oil Film. To calculate Torque Required to Overcome Viscous Resistance in Foot-Step Bearing, you need Viscosity of Fluid (μ), Mean Speed in RPM (N), Shaft Diameter (Ds) & Thickness of Oil Film (t). With our tool, you need to enter the respective value for Viscosity of Fluid, Mean Speed in RPM, Shaft Diameter & Thickness of Oil Film and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Torque Exerted on Wheel?
In this formula, Torque Exerted on Wheel uses Viscosity of Fluid, Mean Speed in RPM, Shaft Diameter & Thickness of Oil Film. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Torque Exerted on Wheel = Shear Force*Shaft Diameter/2
  • Torque Exerted on Wheel = Power Absorbed/(2*pi*Mean Speed in RPM)
  • Torque Exerted on Wheel = (Viscosity of Fluid*pi^2*Mean Speed in RPM*(Outer Radius of Collar^4-Inner Radius of Collar^4))/Thickness of Oil Film
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