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## Credits

Osmania University (OU), Hyderabad
Kethavath Srinath has created this Calculator and 500+ more calculators!
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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## Axial Force When Tensile Stress in the Shaft is Given Solution

STEP 0: Pre-Calculation Summary
Formula Used
axial_force = Tensile Stress*pi*Diameter of shaft/4
P = σ*pi*d/4
This formula uses 1 Constants, 2 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Tensile Stress - Tensile stress can be defined as the magnitude of force applied along an elastic rod, which is divided by the cross-sectional area of the rod in a direction perpendicular to the applied force. (Measured in Newton per Square Meter)
Diameter of shaft - The Diameter of shaft is defined as the diameter of the hole in the iron laminations that contains the shaft. (Measured in Centimeter)
STEP 1: Convert Input(s) to Base Unit
Tensile Stress: 10 Newton per Square Meter --> 10 Pascal (Check conversion here)
Diameter of shaft: 10 Centimeter --> 0.1 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P = σ*pi*d/4 --> 10*pi*0.1/4
Evaluating ... ...
P = 0.785398163397448
STEP 3: Convert Result to Output's Unit
0.785398163397448 Newton --> No Conversion Required
FINAL ANSWER
0.785398163397448 Newton <-- Axial Force
(Calculation completed in 00.012 seconds)

## < 10+ Desgin of Shafts Calculators

Diameter of Shaft When Torsional Shear Stress in a Shaft is Given(Pure Torsion)
diameter_of_shaft = (16*Torsional Moment/pi*Torsional Shear Stress)^(1/3) Go
Torsional Moment When Torsional Shear Stress in a Shaft is Given(Pure Torsion)
torsional_moment = Torsional Shear Stress*pi*(Diameter of shaft^3)/16 Go
Torsional Shear Stress in a Shaft(Pure Torsion)
torsional_shear_stress = 16*Torsional Moment/(pi*Diameter of shaft^3) Go
Diameter of the Shaft When Bending Stress is Given(Pure Bending)
diameter_of_shaft = (32*Bending moment/pi*Bending Stress)^(1/3) Go
Bending Moment When Bending Stress is Given(Pure Bending)
bending_moment = (Bending Stress*pi*Diameter of shaft^3)/32 Go
Bending Stress in the Shaft (Pure Bending Moment)
bending_stress = 32*Bending moment/pi*Diameter of shaft^3 Go
Tensile Stress in the Shaft When It is Subjected to Axial Tensile Force
tensile_stress = 4*Axial Force/pi*Diameter of shaft Go
Diameter of Shaft When Tensile Stress in the Shaft is Given
diameter_of_shaft = 4*Axial Force/pi*Tensile Stress Go
Axial Force When Tensile Stress in the Shaft is Given
axial_force = Tensile Stress*pi*Diameter of shaft/4 Go
Normal Stress When Both Bending and Torsional act on the Shaft
normal_stress = Bending Stress+Tensile Stress Go

### Axial Force When Tensile Stress in the Shaft is Given Formula

axial_force = Tensile Stress*pi*Diameter of shaft/4
P = σ*pi*d/4

## Define Axial Force?

Axial force is the compression or tension force acting in a member. If the axial force acts through the centroid of the member it is called concentric loading. If the force is not acting through the centroid it's called eccentric loading.

## How to Calculate Axial Force When Tensile Stress in the Shaft is Given?

Axial Force When Tensile Stress in the Shaft is Given calculator uses axial_force = Tensile Stress*pi*Diameter of shaft/4 to calculate the Axial Force, The Axial Force When Tensile Stress in the Shaft is Given formula is defined as the compression or tension force acting in a member. If the axial force acts through the centroid of the member it is called concentric loading. Axial Force and is denoted by P symbol.

How to calculate Axial Force When Tensile Stress in the Shaft is Given using this online calculator? To use this online calculator for Axial Force When Tensile Stress in the Shaft is Given, enter Tensile Stress (σ) and Diameter of shaft (d) and hit the calculate button. Here is how the Axial Force When Tensile Stress in the Shaft is Given calculation can be explained with given input values -> 0.785398 = 10*pi*0.1/4.

### FAQ

What is Axial Force When Tensile Stress in the Shaft is Given?
The Axial Force When Tensile Stress in the Shaft is Given formula is defined as the compression or tension force acting in a member. If the axial force acts through the centroid of the member it is called concentric loading and is represented as P = σ*pi*d/4 or axial_force = Tensile Stress*pi*Diameter of shaft/4. Tensile stress can be defined as the magnitude of force applied along an elastic rod, which is divided by the cross-sectional area of the rod in a direction perpendicular to the applied force and The Diameter of shaft is defined as the diameter of the hole in the iron laminations that contains the shaft.
How to calculate Axial Force When Tensile Stress in the Shaft is Given?
The Axial Force When Tensile Stress in the Shaft is Given formula is defined as the compression or tension force acting in a member. If the axial force acts through the centroid of the member it is called concentric loading is calculated using axial_force = Tensile Stress*pi*Diameter of shaft/4. To calculate Axial Force When Tensile Stress in the Shaft is Given, you need Tensile Stress (σ) and Diameter of shaft (d). With our tool, you need to enter the respective value for Tensile Stress and Diameter of shaft 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 Force?
In this formula, Axial Force uses Tensile Stress and Diameter of shaft. We can use 10 other way(s) to calculate the same, which is/are as follows -
• tensile_stress = 4*Axial Force/pi*Diameter of shaft
• diameter_of_shaft = 4*Axial Force/pi*Tensile Stress
• axial_force = Tensile Stress*pi*Diameter of shaft/4
• bending_stress = 32*Bending moment/pi*Diameter of shaft^3
• bending_moment = (Bending Stress*pi*Diameter of shaft^3)/32
• diameter_of_shaft = (32*Bending moment/pi*Bending Stress)^(1/3)
• torsional_shear_stress = 16*Torsional Moment/(pi*Diameter of shaft^3)
• torsional_moment = Torsional Shear Stress*pi*(Diameter of shaft^3)/16
• diameter_of_shaft = (16*Torsional Moment/pi*Torsional Shear Stress)^(1/3)
• normal_stress = Bending Stress+Tensile Stress
Where is the Axial Force When Tensile Stress in the Shaft is Given calculator used?
Among many, Axial Force When Tensile Stress in the Shaft is Given calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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