Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load Calculator

✖Maximum Bending Stress is the highest stress experienced by a material subjected to a bending load.ⓘ Maximum Bending Stress [σb^max]			+10% -10%
✖Maximum Bending Moment In Column is the highest amount of bending force that a column experiences due to applied loads, either axial or eccentric.ⓘ Maximum Bending Moment In Column [M]			+10% -10%
✖Distance from Neutral Axis to Extreme Point is the distance between the neutral axis and the extreme point.ⓘ Distance from Neutral Axis to Extreme Point [c]			+10% -10%
✖Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis.ⓘ Moment of Inertia [I]			+10% -10%
✖Cross Sectional Area of Column is the area of a column that is obtained when a column is sliced perpendicular to some specified axis at a point.ⓘ Cross Sectional Area [A_sectional]			+10% -10%

✖Axial Thrust is the force exerted along the axis of a shaft in mechanical systems. It occurs when there is an imbalance of forces that acts in the direction parallel to the axis of rotation.ⓘ Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load [P_axial]

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Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load Solution

STEP 0: Pre-Calculation Summary

Formula Used

Axial Thrust = (Maximum Bending Stress-(Maximum Bending Moment In Column*Distance from Neutral Axis to Extreme Point/Moment of Inertia))*Cross Sectional Area
P_axial = (σb^max-(M*c/I))*A_sectional
This formula uses 6 Variables

Variables Used

Axial Thrust - (Measured in Newton) - Axial Thrust is the force exerted along the axis of a shaft in mechanical systems. It occurs when there is an imbalance of forces that acts in the direction parallel to the axis of rotation.
Maximum Bending Stress - (Measured in Pascal) - Maximum Bending Stress is the highest stress experienced by a material subjected to a bending load.
Maximum Bending Moment In Column - (Measured in Newton Meter) - Maximum Bending Moment In Column is the highest amount of bending force that a column experiences due to applied loads, either axial or eccentric.
Distance from Neutral Axis to Extreme Point - (Measured in Meter) - Distance from Neutral Axis to Extreme Point is the distance between the neutral axis and the extreme point.
Moment of Inertia - (Measured in Meter⁴) - Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis.
Cross Sectional Area - (Measured in Square Meter) - Cross Sectional Area of Column is the area of a column that is obtained when a column is sliced perpendicular to some specified axis at a point.

STEP 1: Convert Input(s) to Base Unit

Maximum Bending Stress: 2 Megapascal --> 2000000 Pascal (Check conversion here)
Maximum Bending Moment In Column: 16 Newton Meter --> 16 Newton Meter No Conversion Required
Distance from Neutral Axis to Extreme Point: 10 Millimeter --> 0.01 Meter (Check conversion here)
Moment of Inertia: 5600 Centimeter⁴ --> 5.6E-05 Meter⁴ (Check conversion here)
Cross Sectional Area: 1.4 Square Meter --> 1.4 Square Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_axial = (σb^max-(M*c/I))*A_sectional --> (2000000-(16*0.01/5.6E-05))*1.4

Evaluating ... ...

P_axial = 2796000

STEP 3: Convert Result to Output's Unit

2796000 Newton --> No Conversion Required

FINAL ANSWER

2796000 ≈ 2.8E+6 Newton <-- Axial Thrust

(Calculation completed in 00.020 seconds)

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< Strut Subjected to Compressive Axial Thrust and a Transverse Uniformly Distributed Load Calculators

Bending Moment at Section for Strut subjected to Compressive Axial and Uniformly Distributed Load

LaTeX Go Bending Moment in Column = -(Axial Thrust*Deflection at Section of Column)+(Load Intensity*(((Distance of Deflection from End A^2)/2)-(Column Length*Distance of Deflection from End A/2)))

Deflection at Section for Strut Subjected to Compressive Axial and Uniformly Distributed Load

LaTeX Go Deflection at Section of Column = (-Bending Moment in Column+(Load Intensity*(((Distance of Deflection from End A^2)/2)-(Column Length*Distance of Deflection from End A/2))))/Axial Thrust

Axial Thrust for Strut Subjected to Compressive Axial and Uniformly Distributed Load

LaTeX Go Axial Thrust = (-Bending Moment in Column+(Load Intensity*(((Distance of Deflection from End A^2)/2)-(Column Length*Distance of Deflection from End A/2))))/Deflection at Section of Column

Load Intensity for Strut Subjected to Compressive Axial and Uniformly Distributed Load

LaTeX Go Load Intensity = (Bending Moment in Column+(Axial Thrust*Deflection at Section of Column))/(((Distance of Deflection from End A^2)/2)-(Column Length*Distance of Deflection from End A/2))

Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load Formula

LaTeX Go

Axial Thrust = (Maximum Bending Stress-(Maximum Bending Moment In Column*Distance from Neutral Axis to Extreme Point/Moment of Inertia))*Cross Sectional Area
P_axial = (σb^max-(M*c/I))*A_sectional

What is Axial Thrust?

Axial thrust refers to a propelling force applied along the axis (also called axial direction) of an object to push the object against a platform in a particular direction.

How to Calculate Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load?

Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load calculator uses Axial Thrust = (Maximum Bending Stress-(Maximum Bending Moment In Column*Distance from Neutral Axis to Extreme Point/Moment of Inertia))*Cross Sectional Area to calculate the Axial Thrust, The Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load formula is defined as the maximum compressive force that a strut can withstand without failing, taking into account the maximum stress, moment, and sectional area of the strut, when it is subjected to both axial thrust and transverse uniformly distributed load. Axial Thrust is denoted by P_axial symbol.

How to calculate Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load using this online calculator? To use this online calculator for Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load, enter Maximum Bending Stress (σb^max), Maximum Bending Moment In Column (M), Distance from Neutral Axis to Extreme Point (c), Moment of Inertia (I) & Cross Sectional Area (A_sectional) and hit the calculate button. Here is how the Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load calculation can be explained with given input values -> 2.8E+6 = (2000000-(16*0.01/5.6E-05))*1.4.

FAQ

What is Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load?

The Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load formula is defined as the maximum compressive force that a strut can withstand without failing, taking into account the maximum stress, moment, and sectional area of the strut, when it is subjected to both axial thrust and transverse uniformly distributed load and is represented as P_axial = (σb^max-(M*c/I))*A_sectional or Axial Thrust = (Maximum Bending Stress-(Maximum Bending Moment In Column*Distance from Neutral Axis to Extreme Point/Moment of Inertia))*Cross Sectional Area. Maximum Bending Stress is the highest stress experienced by a material subjected to a bending load, Maximum Bending Moment In Column is the highest amount of bending force that a column experiences due to applied loads, either axial or eccentric, Distance from Neutral Axis to Extreme Point is the distance between the neutral axis and the extreme point, Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis & Cross Sectional Area of Column is the area of a column that is obtained when a column is sliced perpendicular to some specified axis at a point.

How to calculate Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load?

The Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load formula is defined as the maximum compressive force that a strut can withstand without failing, taking into account the maximum stress, moment, and sectional area of the strut, when it is subjected to both axial thrust and transverse uniformly distributed load is calculated using Axial Thrust = (Maximum Bending Stress-(Maximum Bending Moment In Column*Distance from Neutral Axis to Extreme Point/Moment of Inertia))*Cross Sectional Area. To calculate Axial Thrust given Maximum Stress for Strut subjected to Uniformly Distributed Load, you need Maximum Bending Stress (σb^max), Maximum Bending Moment In Column (M), Distance from Neutral Axis to Extreme Point (c), Moment of Inertia (I) & Cross Sectional Area (A_sectional). With our tool, you need to enter the respective value for Maximum Bending Stress, Maximum Bending Moment In Column, Distance from Neutral Axis to Extreme Point, Moment of Inertia & Cross Sectional Area 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 Axial Thrust?

In this formula, Axial Thrust uses Maximum Bending Stress, Maximum Bending Moment In Column, Distance from Neutral Axis to Extreme Point, Moment of Inertia & Cross Sectional Area. We can use 3 other way(s) to calculate the same, which is/are as follows -

Axial Thrust = (-Bending Moment in Column+(Load Intensity*(((Distance of Deflection from End A^2)/2)-(Column Length*Distance of Deflection from End A/2))))/Deflection at Section of Column
Axial Thrust = (-Maximum Bending Moment In Column-(Load Intensity*(Column Length^2)/8))/(Maximum Initial Deflection)
Axial Thrust = (Maximum Bending Stress-(Maximum Bending Moment In Column/Modulus of Elasticity of Column))*Cross Sectional Area

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