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## Credits

National Institute Of Technology (NIT), Hamirpur
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## Maximum circumferential stress in the solid disc Solution

STEP 0: Pre-Calculation Summary
Formula Used
circumferential_stress = (Density*(Angular velocity^2)*(3+Poisson's ratio)*(Outer Radius^2))/8
σc = (ρ*(ω^2)*(3+𝛎)*(R^2))/8
This formula uses 4 Variables
Variables Used
Density - The density of a material shows the denseness of that material in a specific given area. This is taken as mass per unit volume of a given object. (Measured in Kilogram per Meter³)
Angular velocity- The angular velocity refers to how fast an object rotates or revolves relative to another point, i.e. how fast the angular position or orientation of an object changes with time.
Poisson's ratio- Poisson's ratio is defined as the ratio of the lateral and axial strain. For many metals and alloys, values of Poisson’s ratio range between 0.25 and 0.35.
Outer Radius - Outer Radius is the radius of the larger of the two concentric circles that form its boundary. (Measured in Centimeter)
STEP 1: Convert Input(s) to Base Unit
Density: 997 Kilogram per Meter³ --> 997 Kilogram per Meter³ No Conversion Required
Angular velocity: 20 --> No Conversion Required
Poisson's ratio: 0.3 --> No Conversion Required
Outer Radius: 10 Centimeter --> 0.1 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
σc = (ρ*(ω^2)*(3+𝛎)*(R^2))/8 --> (997*(20^2)*(3+0.3)*(0.1^2))/8
Evaluating ... ...
σc = 1645.05
STEP 3: Convert Result to Output's Unit
1645.05 Pascal -->1645.05 Newton per Square Meter (Check conversion here)
1645.05 Newton per Square Meter <-- Circumferential stress
(Calculation completed in 00.016 seconds)

## < 10+ Expression For Stresses In A Solid Disc Calculators

Angular velocity of disc in terms of circumferential stress in a solid disc
angular_velocity_1 = sqrt((((Constant at boundary condition/2)-Circumferential stress)*8)/(Density*(Radius^2)*((3*Poisson's ratio)+1))) Go
Angular velocity of the disc in terms of radial stress in a solid disc
Radius of the disc in terms of radial stress in a solid disc
Density of material in terms of circumferential stress in a solid disc
density = (((Constant at boundary condition/2)-Circumferential stress)*8)/((Angular velocity^2)*(Radius^2)*((3*Poisson's ratio)+1)) Go
Constant at boundary condition in terms of circumferential stress in a solid disc
constant_at_boundary_condition = 2*(Circumferential stress+((Density*(Angular velocity^2)*(Radius^2)*((3*Poisson's ratio)+1))/8)) Go
Circumferential stress in a solid disc
circumferential_stress = (Constant at boundary condition/2)-((Density*(Angular velocity^2)*(Radius^2)*((3*Poisson's ratio)+1))/8) Go
Density of material in terms of radial stress in a solid disc
Poisson's ratio in terms of radial stress in a solid disc
Constant at boundary condition in terms of radial stress in a solid disc
Radial stress in a solid disc

### Maximum circumferential stress in the solid disc Formula

circumferential_stress = (Density*(Angular velocity^2)*(3+Poisson's ratio)*(Outer Radius^2))/8
σc = (ρ*(ω^2)*(3+𝛎)*(R^2))/8

## What is radial and tangential stress?

The “Hoop Stress” or “Tangential Stress” acts on a line perpendicular to the “longitudinal “and the “radial stress;” this stress attempts to separate the pipe wall in the circumferential direction. This stress is caused by internal pressure.

## How to Calculate Maximum circumferential stress in the solid disc?

Maximum circumferential stress in the solid disc calculator uses circumferential_stress = (Density*(Angular velocity^2)*(3+Poisson's ratio)*(Outer Radius^2))/8 to calculate the Circumferential stress, The Maximum circumferential stress in the solid disc formula is defined as hoop stress, a normal stress in the tangential (azimuth) direction. Circumferential stress and is denoted by σc symbol.

How to calculate Maximum circumferential stress in the solid disc using this online calculator? To use this online calculator for Maximum circumferential stress in the solid disc, enter Density (ρ), Angular velocity (ω), Poisson's ratio (𝛎) and Outer Radius (R) and hit the calculate button. Here is how the Maximum circumferential stress in the solid disc calculation can be explained with given input values -> 0.001645 = (997*(20^2)*(3+0.3)*(0.1^2))/8.

### FAQ

What is Maximum circumferential stress in the solid disc?
The Maximum circumferential stress in the solid disc formula is defined as hoop stress, a normal stress in the tangential (azimuth) direction and is represented as σc = (ρ*(ω^2)*(3+𝛎)*(R^2))/8 or circumferential_stress = (Density*(Angular velocity^2)*(3+Poisson's ratio)*(Outer Radius^2))/8. The density of a material shows the denseness of that material in a specific given area. This is taken as mass per unit volume of a given object, The angular velocity refers to how fast an object rotates or revolves relative to another point, i.e. how fast the angular position or orientation of an object changes with time, Poisson's ratio is defined as the ratio of the lateral and axial strain. For many metals and alloys, values of Poisson’s ratio range between 0.25 and 0.35 and Outer Radius is the radius of the larger of the two concentric circles that form its boundary.
How to calculate Maximum circumferential stress in the solid disc?
The Maximum circumferential stress in the solid disc formula is defined as hoop stress, a normal stress in the tangential (azimuth) direction is calculated using circumferential_stress = (Density*(Angular velocity^2)*(3+Poisson's ratio)*(Outer Radius^2))/8. To calculate Maximum circumferential stress in the solid disc, you need Density (ρ), Angular velocity (ω), Poisson's ratio (𝛎) and Outer Radius (R). With our tool, you need to enter the respective value for Density, Angular velocity, Poisson's ratio and Outer Radius 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 Circumferential stress?
In this formula, Circumferential stress uses Density, Angular velocity, Poisson's ratio and Outer Radius. We can use 10 other way(s) to calculate the same, which is/are as follows -