Shear stress given shear strain energy Solution

STEP 0: Pre-Calculation Summary
Formula Used
Shear stress on surface of shaft = sqrt((Strain Energy in body*2*Modulus of rigidity of Shaft)/Volume of Shaft)
𝜏 = sqrt((U*2*G)/V)
This formula uses 1 Functions, 4 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
Shear stress on surface of shaft - (Measured in Pascal) - Shear stress on surface of shaft is force tending to cause deformation of a material by slippage along a plane or planes parallel to the imposed stress.
Strain Energy in body - (Measured in Joule) - Strain Energy in body is defined as the energy stored in a body due to deformation.
Modulus of rigidity of Shaft - (Measured in Pascal) - Modulus of rigidity of Shaft is the elastic coefficient when a shear force is applied resulting in lateral deformation. It gives us a measure of how rigid a body is.
Volume of Shaft - (Measured in Cubic Meter) - The Volume of Shaft is the volume of cylindical component under torsion.
STEP 1: Convert Input(s) to Base Unit
Strain Energy in body: 50 Kilojoule --> 50000 Joule (Check conversion ​here)
Modulus of rigidity of Shaft: 4E-05 Megapascal --> 40 Pascal (Check conversion ​here)
Volume of Shaft: 125.6 Cubic Meter --> 125.6 Cubic Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
𝜏 = sqrt((U*2*G)/V) --> sqrt((50000*2*40)/125.6)
Evaluating ... ...
𝜏 = 178.457652562062
STEP 3: Convert Result to Output's Unit
178.457652562062 Pascal -->0.000178457652562062 Megapascal (Check conversion ​here)
FINAL ANSWER
0.000178457652562062 0.000178 Megapascal <-- Shear stress on surface of shaft
(Calculation completed in 00.020 seconds)

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Expression for Strain Energy stored in a Body Due to Torsion Calculators

Value of radius 'r' given shear stress at radius 'r' from center
​ LaTeX ​ Go Radius 'r' from Center Of Shaft = (Shear stress at radius 'r' from shaft*Radius of Shaft)/Shear stress on surface of shaft
Radius of shaft given shear stress at radius r from center
​ LaTeX ​ Go Radius of Shaft = (Radius 'r' from Center Of Shaft/Shear stress at radius 'r' from shaft)*Shear stress on surface of shaft
Modulus of rigidity given shear strain energy
​ LaTeX ​ Go Modulus of rigidity of Shaft = (Shear stress on surface of shaft^2)*(Volume of Shaft)/(2*Strain Energy in body)
Shear strain energy
​ LaTeX ​ Go Strain Energy in body = (Shear stress on surface of shaft^2)*(Volume of Shaft)/(2*Modulus of rigidity of Shaft)

Shear stress given shear strain energy Formula

​LaTeX ​Go
Shear stress on surface of shaft = sqrt((Strain Energy in body*2*Modulus of rigidity of Shaft)/Volume of Shaft)
𝜏 = sqrt((U*2*G)/V)

Is strain energy a material property?

The strain energy (i.e. the amount of potential energy stored due to the deformation) is equal to the work expended in deforming the material. The total strain energy corresponds to the area under the load-deflection curve and has units of in-lbf in US Customary units and N-m in SI units.

How to Calculate Shear stress given shear strain energy?

Shear stress given shear strain energy calculator uses Shear stress on surface of shaft = sqrt((Strain Energy in body*2*Modulus of rigidity of Shaft)/Volume of Shaft) to calculate the Shear stress on surface of shaft, Shear stress given shear strain energy is a force tending to cause deformation of a material by slippage along a plane or planes parallel to the imposed stress. Shear stress on surface of shaft is denoted by 𝜏 symbol.

How to calculate Shear stress given shear strain energy using this online calculator? To use this online calculator for Shear stress given shear strain energy, enter Strain Energy in body (U), Modulus of rigidity of Shaft (G) & Volume of Shaft (V) and hit the calculate button. Here is how the Shear stress given shear strain energy calculation can be explained with given input values -> 1.8E-10 = sqrt((50000*2*40)/125.6).

FAQ

What is Shear stress given shear strain energy?
Shear stress given shear strain energy is a force tending to cause deformation of a material by slippage along a plane or planes parallel to the imposed stress and is represented as 𝜏 = sqrt((U*2*G)/V) or Shear stress on surface of shaft = sqrt((Strain Energy in body*2*Modulus of rigidity of Shaft)/Volume of Shaft). Strain Energy in body is defined as the energy stored in a body due to deformation, Modulus of rigidity of Shaft is the elastic coefficient when a shear force is applied resulting in lateral deformation. It gives us a measure of how rigid a body is & The Volume of Shaft is the volume of cylindical component under torsion.
How to calculate Shear stress given shear strain energy?
Shear stress given shear strain energy is a force tending to cause deformation of a material by slippage along a plane or planes parallel to the imposed stress is calculated using Shear stress on surface of shaft = sqrt((Strain Energy in body*2*Modulus of rigidity of Shaft)/Volume of Shaft). To calculate Shear stress given shear strain energy, you need Strain Energy in body (U), Modulus of rigidity of Shaft (G) & Volume of Shaft (V). With our tool, you need to enter the respective value for Strain Energy in body, Modulus of rigidity of Shaft & Volume of Shaft 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 Shear stress on surface of shaft?
In this formula, Shear stress on surface of shaft uses Strain Energy in body, Modulus of rigidity of Shaft & Volume of Shaft. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Shear stress on surface of shaft = Shear stress at radius 'r' from shaft/(Radius 'r' from Center Of Shaft/Radius of Shaft)
  • Shear stress on surface of shaft = sqrt((Strain Energy in body*(2*Modulus of rigidity of Shaft*(Radius of Shaft^2)))/(2*pi*Length of Shaft*(Radius 'r' from Center Of Shaft^3)*Length of Small Element))
  • Shear stress on surface of shaft = sqrt((Strain Energy in body*(2*Modulus of rigidity of Shaft*(Radius of Shaft^2)))/(Length of Shaft*Polar Moment of Inertia of shaft))
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