Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section Solution

STEP 0: Pre-Calculation Summary
Formula Used
MOI of Area of Circular Section = (Moment due to Eccentric Load*Diameter)/(2*Maximum Bending Stress)
Icircular = (M*d)/(2*σbmax)
This formula uses 4 Variables
Variables Used
MOI of Area of Circular Section - (Measured in Meter⁴) - MOI of Area of Circular Section is the second moment of the area of the circular section about the neutral axis.
Moment due to Eccentric Load - (Measured in Newton Meter) - Moment due to Eccentric Load is the bending moment created when a load is applied at a point that is offset (or "eccentric") from the central axis of a structural element, like a beam or column.
Diameter - (Measured in Meter) - Diameter is a straight line passing from side to side through the center of a body or figure, especially a circle or sphere.
Maximum Bending Stress - (Measured in Pascal) - Maximum Bending Stress is the normal stress that is induced at a point in a body subjected to loads that cause it to bend.
STEP 1: Convert Input(s) to Base Unit
Moment due to Eccentric Load: 0.000256 Newton Meter --> 0.000256 Newton Meter No Conversion Required
Diameter: 142 Millimeter --> 0.142 Meter (Check conversion ​here)
Maximum Bending Stress: 1263.432 Megapascal --> 1263432000 Pascal (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Icircular = (M*d)/(2*σbmax) --> (0.000256*0.142)/(2*1263432000)
Evaluating ... ...
Icircular = 1.43862115254323E-14
STEP 3: Convert Result to Output's Unit
1.43862115254323E-14 Meter⁴ -->0.0143862115254323 Millimeter⁴ (Check conversion ​here)
FINAL ANSWER
0.0143862115254323 0.014386 Millimeter⁴ <-- MOI of Area of Circular Section
(Calculation completed in 00.004 seconds)

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Middle Quarter Rule for Circular Section Calculators

Eccentricity of Load given Minimum Bending Stress
​ LaTeX ​ Go Eccentricity of Loading = (((4*Eccentric Load on Column)/(pi*(Diameter^2)))-Minimum Bending Stress)*((pi*(Diameter^3))/(32*Eccentric Load on Column))
Condition for Maximum Bending Stress given Diameter
​ LaTeX ​ Go Diameter = 2*Distance from Neutral Layer
Diameter of Circular Section given Maximum Value of Eccentricity
​ LaTeX ​ Go Diameter = 8*Eccentricity of Loading
Maximum value of Eccentricity for No Tensile Stress
​ LaTeX ​ Go Eccentricity of Loading = Diameter/8

Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section Formula

​LaTeX ​Go
MOI of Area of Circular Section = (Moment due to Eccentric Load*Diameter)/(2*Maximum Bending Stress)
Icircular = (M*d)/(2*σbmax)

What is Shear Stress and Strain?

Shear strain is the deformation of an object or medium under shear stress. The shear modulus is the elastic modulus in this case. Shear stress is caused by forces acting along the object's two parallel surfaces.

How to Calculate Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section?

Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section calculator uses MOI of Area of Circular Section = (Moment due to Eccentric Load*Diameter)/(2*Maximum Bending Stress) to calculate the MOI of Area of Circular Section, The Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section formula is defined as a measure of the tendency of an object to resist changes in its rotation, specifically for circular sections under maximum bending stress, providing a crucial parameter in structural analysis and design. MOI of Area of Circular Section is denoted by Icircular symbol.

How to calculate Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section using this online calculator? To use this online calculator for Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section, enter Moment due to Eccentric Load (M), Diameter (d) & Maximum Bending Stress (σbmax) and hit the calculate button. Here is how the Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section calculation can be explained with given input values -> 4.6E+14 = (0.000256*0.142)/(2*1263432000).

FAQ

What is Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section?
The Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section formula is defined as a measure of the tendency of an object to resist changes in its rotation, specifically for circular sections under maximum bending stress, providing a crucial parameter in structural analysis and design and is represented as Icircular = (M*d)/(2*σbmax) or MOI of Area of Circular Section = (Moment due to Eccentric Load*Diameter)/(2*Maximum Bending Stress). Moment due to Eccentric Load is the bending moment created when a load is applied at a point that is offset (or "eccentric") from the central axis of a structural element, like a beam or column, Diameter is a straight line passing from side to side through the center of a body or figure, especially a circle or sphere & Maximum Bending Stress is the normal stress that is induced at a point in a body subjected to loads that cause it to bend.
How to calculate Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section?
The Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section formula is defined as a measure of the tendency of an object to resist changes in its rotation, specifically for circular sections under maximum bending stress, providing a crucial parameter in structural analysis and design is calculated using MOI of Area of Circular Section = (Moment due to Eccentric Load*Diameter)/(2*Maximum Bending Stress). To calculate Moment of Inertia of Circular Section given Maximum Bending Stress for Circular Section, you need Moment due to Eccentric Load (M), Diameter (d) & Maximum Bending Stress (σbmax). With our tool, you need to enter the respective value for Moment due to Eccentric Load, Diameter & Maximum Bending Stress 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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