Angle of Twist with known Shear Strain at Outer Surface of Shaft Calculator

✖The Shear Strain is the ratio of the change in deformation to its original length perpendicular to the axes of the member due to shear stress.ⓘ Shear Strain [𝜂]			+10% -10%
✖Length of Shaft is the distance between two ends of shaft.ⓘ Length of Shaft [L_shaft]			+10% -10%
✖The Radius of Shaft is the line segment extending from the center of a circle or sphere to the circumference or bounding surface.ⓘ Radius of Shaft [R]			+10% -10%

✖Angle of Twist for Circular Shafts is the angular deformation along the length of a circular shaft subjected to torsion, measured in radians.ⓘ Angle of Twist with known Shear Strain at Outer Surface of Shaft [θ_{Circularshafts}]

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Formula

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Angle of Twist with known Shear Strain at Outer Surface of Shaft

Formula

`"θ"_{"Circularshafts"} = ("𝜂"*"L"_{"shaft"})/"R"`

Example

`"72.86364rad"=("1.75"*"4.58m")/"110mm"`

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Angle of Twist with known Shear Strain at Outer Surface of Shaft Solution

STEP 0: Pre-Calculation Summary

Formula Used

Angle of Twist for Circular Shafts = (Shear Strain*Length of Shaft)/Radius of Shaft
θ_{Circularshafts} = (𝜂*L_shaft)/R
This formula uses 4 Variables

Variables Used

Angle of Twist for Circular Shafts - (Measured in Radian) - Angle of Twist for Circular Shafts is the angular deformation along the length of a circular shaft subjected to torsion, measured in radians.
Shear Strain - The Shear Strain is the ratio of the change in deformation to its original length perpendicular to the axes of the member due to shear stress.
Length of Shaft - (Measured in Meter) - Length of Shaft is the distance between two ends of shaft.
Radius of Shaft - (Measured in Meter) - The Radius of Shaft is the line segment extending from the center of a circle or sphere to the circumference or bounding surface.

STEP 1: Convert Input(s) to Base Unit

Shear Strain: 1.75 --> No Conversion Required
Length of Shaft: 4.58 Meter --> 4.58 Meter No Conversion Required
Radius of Shaft: 110 Millimeter --> 0.11 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

θ_{Circularshafts} = (𝜂*L_shaft)/R --> (1.75*4.58)/0.11

Evaluating ... ...

θ_{Circularshafts} = 72.8636363636364

STEP 3: Convert Result to Output's Unit

72.8636363636364 Radian --> No Conversion Required

FINAL ANSWER

72.8636363636364 ≈ 72.86364 Radian <-- Angle of Twist for Circular Shafts

(Calculation completed in 00.004 seconds)

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National Institute Of Technology (NIT), Hamirpur

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Birsa Institute of Technology (BIT), Sindri

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< 17 Deviation of Shear Stress produced in a Circular Shaft subjected to Torsion Calculators

Shear Stress induced at Radius 'r' from Center of Shaft using Modulus of Rigidity

Go Shear Stress at Radius r = (Radius from Center to Distance r*Modulus of Rigidity*Angle of Twist for Circular Shafts)/Shear Stress in Shaft

Modulus of Rigidity of material of Shaft using Shear Stress-induced at Surface of Shaft

Go Modulus of Rigidity = (Shear Stress in Shaft*Length of Shaft)/(Radius of Shaft*Angle of Twist SOM)

Modulus of Rigidity of Shaft if Shear Stress-induced at Radius 'r' from Center of Shaft

Go Modulus of Rigidity = (Length of Shaft*Shear Stress in Shaft)/(Radius of Shaft*Angle of Twist SOM)

Angle of Twist with known Shear Stress induced at Radius r from Center of Shaft

Go Angle of Twist SOM = (Length of Shaft*Shear Stress in Shaft)/(Radius of Shaft*Modulus of Rigidity)

Radius of Shaft using Shear Stress induced at Surface of Shaft

Go Radius of Shaft = (Shear Stress in Shaft*Length of Shaft)/(Modulus of Rigidity*Angle of Twist SOM)

Angle of Twist with known Shear Stress in Shaft

Go Angle of Twist SOM = (Shear Stress in Shaft*Length of Shaft)/(Radius of Shaft*Modulus of Rigidity)

Length of Shaft with known Shear Stress induced at Radius r from Center of Shaft

Go Length of Shaft = (Radius of Shaft*Modulus of Rigidity*Angle of Twist SOM)/Shear Stress in Shaft

Length of Shaft with known Shear Stress induced at Surface of Shaft

Go Length of Shaft = (Radius of Shaft*Modulus of Rigidity*Angle of Twist SOM)/Shear Stress in Shaft

Shear Stress induced at Surface of Shaft

Go Shear Stress in Shaft = (Radius of Shaft*Modulus of Rigidity*Angle of Twist SOM)/Length of Shaft

Shear Stress at Surface of Shaft using Shear Stress-induced at Radius 'r' from Center of Shaft

Go Shear Stress at Radius r = (Shear Stress in Shaft*Radius from Center to Distance r)/Radius of Shaft

Value of Radius r using Shear Stress induced at Radius r from Center of Shaft

Go Radius from Center to Distance r = (Shear Stress at Radius r*Radius of Shaft)/Shear Stress in Shaft

Radius of Shaft if Shear Stress induced at Radius r from Center of Shaft

Go Radius of Shaft = (Radius from Center to Distance r*Shear Stress in Shaft)/Shear Stress at Radius r

Shear Stress induced at Radius 'r' from Center of Shaft

Go Shear Stress in Shaft = (Shear Stress at Radius r*Radius from Center to Distance r)/Radius of Shaft

Length of Shaft with known Shear Strain at Outer Surface of Shaft

Go Length of Shaft = (Radius of Shaft*Angle of Twist for Circular Shafts)/Shear Strain

Angle of Twist with known Shear Strain at Outer Surface of Shaft

Go Angle of Twist for Circular Shafts = (Shear Strain*Length of Shaft)/Radius of Shaft

Radius of Shaft using Shear Strain at Outer Surface of Shaft

Go Radius of Shaft = (Shear Strain*Length of Shaft)/Angle of Twist for Circular Shafts

Shear Strain at Outer Surface of Circular Shaft

Go Shear Strain = (Radius of Shaft*Angle of Twist for Circular Shafts)/Length of Shaft

< 17 Torsion Equation of Circular Shafts Calculators