Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber Solution

STEP 0: Pre-Calculation Summary
Formula Used
Bending Stress = (Distance from Neutral Axis*Moment of Resistance)/Area Moment of Inertia
σb = (y*Mr)/I
This formula uses 4 Variables
Variables Used
Bending Stress - (Measured in Pascal) - Bending Stress is the normal stress that is induced at a point in a body subjected to loads that cause it to bend.
Distance from Neutral Axis - (Measured in Meter) - Distance from Neutral Axis is measured between N.A. and the extreme point.
Moment of Resistance - (Measured in Newton Meter) - Moment of Resistance is the couple produced by the internal forces in a beam subjected to bending under the maximum permissible stress.
Area Moment of Inertia - (Measured in Meter⁴) - Area Moment of Inertia is a property of a two-dimensional plane shape where it shows how its points are dispersed in an arbitrary axis in the cross-sectional plane.
STEP 1: Convert Input(s) to Base Unit
Distance from Neutral Axis: 25 Millimeter --> 0.025 Meter (Check conversion ​here)
Moment of Resistance: 4.608 Kilonewton Meter --> 4608 Newton Meter (Check conversion ​here)
Area Moment of Inertia: 0.0016 Meter⁴ --> 0.0016 Meter⁴ No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
σb = (y*Mr)/I --> (0.025*4608)/0.0016
Evaluating ... ...
σb = 72000
STEP 3: Convert Result to Output's Unit
72000 Pascal -->0.072 Megapascal (Check conversion ​here)
FINAL ANSWER
0.072 Megapascal <-- Bending Stress
(Calculation completed in 00.020 seconds)

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Combined Axial and Bending Loads Calculators

Maximum Bending Moment given Maximum Stress for Short Beams
​ LaTeX ​ Go Maximum Bending Moment = ((Maximum Stress-(Axial Load/Cross Sectional Area))*Area Moment of Inertia)/Distance from Neutral Axis
Cross-Sectional Area given Maximum Stress for Short Beams
​ LaTeX ​ Go Cross Sectional Area = Axial Load/(Maximum Stress-((Maximum Bending Moment*Distance from Neutral Axis)/Area Moment of Inertia))
Axial Load given Maximum Stress for Short Beams
​ LaTeX ​ Go Axial Load = Cross Sectional Area*(Maximum Stress-((Maximum Bending Moment*Distance from Neutral Axis)/Area Moment of Inertia))
Maximum Stress for Short Beams
​ LaTeX ​ Go Maximum Stress = (Axial Load/Cross Sectional Area)+((Maximum Bending Moment*Distance from Neutral Axis)/Area Moment of Inertia)

Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber Formula

​LaTeX ​Go
Bending Stress = (Distance from Neutral Axis*Moment of Resistance)/Area Moment of Inertia
σb = (y*Mr)/I

What is Simple Bending?

The Bending will be called as simple bending when it occurs because of beam self-load and external load. This type of bending is also known as ordinary bending and in this type of bending results both shear stress and normal stress in the beam.

Define Stress.

Stress is a physical quantity that expresses the internal forces that neighbouring particles of a continuous material exert on each other, while strain is the measure of the deformation of the material. Thus, Stress is defined as “The restoring force per unit area of the material”. It is a tensor quantity. Denoted by the Greek letter σ. Measured using Pascal or N/m2.

How to Calculate Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber?

Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber calculator uses Bending Stress = (Distance from Neutral Axis*Moment of Resistance)/Area Moment of Inertia to calculate the Bending Stress, The Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber formula is defined as stress induced when the beam is undergoing simple bending. Bending Stress is denoted by σb symbol.

How to calculate Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber using this online calculator? To use this online calculator for Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber, enter Distance from Neutral Axis (y), Moment of Resistance (Mr) & Area Moment of Inertia (I) and hit the calculate button. Here is how the Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber calculation can be explained with given input values -> 7.2E-8 = (0.025*4608)/0.0016.

FAQ

What is Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber?
The Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber formula is defined as stress induced when the beam is undergoing simple bending and is represented as σb = (y*Mr)/I or Bending Stress = (Distance from Neutral Axis*Moment of Resistance)/Area Moment of Inertia. Distance from Neutral Axis is measured between N.A. and the extreme point, Moment of Resistance is the couple produced by the internal forces in a beam subjected to bending under the maximum permissible stress & Area Moment of Inertia is a property of a two-dimensional plane shape where it shows how its points are dispersed in an arbitrary axis in the cross-sectional plane.
How to calculate Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber?
The Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber formula is defined as stress induced when the beam is undergoing simple bending is calculated using Bending Stress = (Distance from Neutral Axis*Moment of Resistance)/Area Moment of Inertia. To calculate Stress Induced using Moment of Resistance, Moment of Inertia and Distance from Extreme Fiber, you need Distance from Neutral Axis (y), Moment of Resistance (Mr) & Area Moment of Inertia (I). With our tool, you need to enter the respective value for Distance from Neutral Axis, Moment of Resistance & Area Moment of Inertia 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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