Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft Solution

STEP 0: Pre-Calculation Summary
Formula Used
Maximum Shear Stress on Shaft = (Turning Moment*2*Outer Radius Of Hollow circular Cylinder)/(pi*(Outer Radius Of Hollow circular Cylinder^4-Inner Radius Of Hollow Circular Cylinder^4))
𝜏m = (T*2*rh)/(pi*(rh^4-ri^4))
This formula uses 1 Constants, 4 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Maximum Shear Stress on Shaft - (Measured in Pascal) - Maximum Shear Stress on Shaft that acts coplanar with a cross-section of material arises due to shear forces.
Turning Moment - (Measured in Newton Meter) - The Turning Moment is the measure of the rotational force transmitted by a hollow circular shaft, essential for understanding its performance in mechanical systems.
Outer Radius Of Hollow circular Cylinder - (Measured in Meter) - The Outer Radius Of Hollow Circular Cylinder is the distance from the center to the outer edge of a hollow cylinder, crucial for understanding its structural properties and torque transmission.
Inner Radius Of Hollow Circular Cylinder - (Measured in Meter) - The Inner Radius Of Hollow Circular Cylinder is the distance from the center to the inner surface of a hollow cylinder, influencing its structural integrity and torque transmission.
STEP 1: Convert Input(s) to Base Unit
Turning Moment: 4 Newton Meter --> 4 Newton Meter No Conversion Required
Outer Radius Of Hollow circular Cylinder: 5500 Millimeter --> 5.5 Meter (Check conversion ​here)
Inner Radius Of Hollow Circular Cylinder: 5000 Millimeter --> 5 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
𝜏m = (T*2*rh)/(pi*(rh^4-ri^4)) --> (4*2*5.5)/(pi*(5.5^4-5^4))
Evaluating ... ...
𝜏m = 0.048284886850547
STEP 3: Convert Result to Output's Unit
0.048284886850547 Pascal -->4.8284886850547E-08 Megapascal (Check conversion ​here)
FINAL ANSWER
4.8284886850547E-08 4.8E-8 Megapascal <-- Maximum Shear Stress on Shaft
(Calculation completed in 00.020 seconds)

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National Institute Of Technology (NIT), Hamirpur
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Torque Transmitted by a Hollow Circular Shaft Calculators

Total Turning Moment on Hollow Circular Shaft given Radius of Shaft
​ LaTeX ​ Go Turning Moment = (pi*Maximum Shear Stress on Shaft*((Outer Radius Of Hollow circular Cylinder^4)-(Inner Radius Of Hollow Circular Cylinder^4)))/(2*Outer Radius Of Hollow circular Cylinder)
Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft
​ LaTeX ​ Go Maximum Shear Stress on Shaft = (Turning Moment*2*Outer Radius Of Hollow circular Cylinder)/(pi*(Outer Radius Of Hollow circular Cylinder^4-Inner Radius Of Hollow Circular Cylinder^4))
Total Turning Moment on Hollow Circular Shaft given Diameter of Shaft
​ LaTeX ​ Go Turning Moment = (pi*Maximum Shear Stress on Shaft*((Outer Diameter of Shaft^4)-(Inner Diameter of Shaft^4)))/(16*Outer Diameter of Shaft)
Maximum Shear Stress at Outer Surface given Diameter of Shaft on Hollow Circular Shaft
​ LaTeX ​ Go Maximum Shear Stress on Shaft = (16*Outer Diameter of Shaft*Turning Moment)/(pi*(Outer Diameter of Shaft^4-Inner Diameter of Shaft^4))

Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft Formula

​LaTeX ​Go
Maximum Shear Stress on Shaft = (Turning Moment*2*Outer Radius Of Hollow circular Cylinder)/(pi*(Outer Radius Of Hollow circular Cylinder^4-Inner Radius Of Hollow Circular Cylinder^4))
𝜏m = (T*2*rh)/(pi*(rh^4-ri^4))

What is Maximum Shear Stress?

Maximum shear stress is the highest value of shear stress that a material or structure experiences under an applied load. It occurs in areas where the forces cause layers of the material to slide relative to each other. This value is crucial in engineering as it helps determine the material's ability to withstand loads without failing or deforming. It guides material selection and design to ensure safety and durability in structural applications.

How to Calculate Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft?

Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft calculator uses Maximum Shear Stress on Shaft = (Turning Moment*2*Outer Radius Of Hollow circular Cylinder)/(pi*(Outer Radius Of Hollow circular Cylinder^4-Inner Radius Of Hollow Circular Cylinder^4)) to calculate the Maximum Shear Stress on Shaft, Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft formula is defined as a measure of the maximum shear stress experienced at the outer surface of a hollow circular shaft due to the applied torque, which is crucial for assessing material strength and safety. Maximum Shear Stress on Shaft is denoted by 𝜏m symbol.

How to calculate Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft using this online calculator? To use this online calculator for Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft, enter Turning Moment (T), Outer Radius Of Hollow circular Cylinder (rh) & Inner Radius Of Hollow Circular Cylinder (ri) and hit the calculate button. Here is how the Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft calculation can be explained with given input values -> 3.2E-13 = (4*2*5.5)/(pi*(5.5^4-5^4)).

FAQ

What is Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft?
Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft formula is defined as a measure of the maximum shear stress experienced at the outer surface of a hollow circular shaft due to the applied torque, which is crucial for assessing material strength and safety and is represented as 𝜏m = (T*2*rh)/(pi*(rh^4-ri^4)) or Maximum Shear Stress on Shaft = (Turning Moment*2*Outer Radius Of Hollow circular Cylinder)/(pi*(Outer Radius Of Hollow circular Cylinder^4-Inner Radius Of Hollow Circular Cylinder^4)). The Turning Moment is the measure of the rotational force transmitted by a hollow circular shaft, essential for understanding its performance in mechanical systems, The Outer Radius Of Hollow Circular Cylinder is the distance from the center to the outer edge of a hollow cylinder, crucial for understanding its structural properties and torque transmission & The Inner Radius Of Hollow Circular Cylinder is the distance from the center to the inner surface of a hollow cylinder, influencing its structural integrity and torque transmission.
How to calculate Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft?
Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft formula is defined as a measure of the maximum shear stress experienced at the outer surface of a hollow circular shaft due to the applied torque, which is crucial for assessing material strength and safety is calculated using Maximum Shear Stress on Shaft = (Turning Moment*2*Outer Radius Of Hollow circular Cylinder)/(pi*(Outer Radius Of Hollow circular Cylinder^4-Inner Radius Of Hollow Circular Cylinder^4)). To calculate Maximum Shear Stress at Outer Surface given Total Turning Moment on Hollow Circular Shaft, you need Turning Moment (T), Outer Radius Of Hollow circular Cylinder (rh) & Inner Radius Of Hollow Circular Cylinder (ri). With our tool, you need to enter the respective value for Turning Moment, Outer Radius Of Hollow circular Cylinder & Inner Radius Of Hollow Circular Cylinder 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 Maximum Shear Stress on Shaft?
In this formula, Maximum Shear Stress on Shaft uses Turning Moment, Outer Radius Of Hollow circular Cylinder & Inner Radius Of Hollow Circular Cylinder. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Maximum Shear Stress on Shaft = (16*Outer Diameter of Shaft*Turning Moment)/(pi*(Outer Diameter of Shaft^4-Inner Diameter of Shaft^4))
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