Density of material given Circumferential stress in solid disc Solution

STEP 0: Pre-Calculation Summary
Formula Used
Density Of Disc = (((Constant at Boundary Condition/2)-Circumferential Stress)*8)/((Angular Velocity^2)*(Disc Radius^2)*((3*Poisson's Ratio)+1))
ρ = (((C1/2)-σc)*8)/((ω^2)*(rdisc^2)*((3*𝛎)+1))
This formula uses 6 Variables
Variables Used
Density Of Disc - (Measured in Kilogram per Cubic Meter) - Density of disc typically refers to the mass per unit volume of the disc material. It is a measure of how much mass is contained in a given volume of the disc.
Constant at Boundary Condition - Constant at boundary condition is a type of boundary condition used in mathematical and physical problems where a specific variable is held constant along the boundary of the domain.
Circumferential Stress - (Measured in Pascal) - Circumferential stress, also known as hoop stress, is a type of normal stress that acts tangentially to the circumference of a cylindrical or spherical object.
Angular Velocity - (Measured in Radian per Second) - Angular velocity is a measure of how quickly an object rotates or revolves around a central point or axis, describes the rate of change of the angular position of the object with respect to time.
Disc Radius - (Measured in Meter) - Disc radius is the distance from the center of the disc to any point on its circumference.
Poisson's Ratio - Poisson's ratio is a measure of the deformation of a material in directions perpendicular to the direction of loading. It is defined as the negative ratio of transverse strain to axial strain.
STEP 1: Convert Input(s) to Base Unit
Constant at Boundary Condition: 300 --> No Conversion Required
Circumferential Stress: 100 Newton per Square Meter --> 100 Pascal (Check conversion ​here)
Angular Velocity: 11.2 Radian per Second --> 11.2 Radian per Second No Conversion Required
Disc Radius: 1000 Millimeter --> 1 Meter (Check conversion ​here)
Poisson's Ratio: 0.3 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ρ = (((C1/2)-σc)*8)/((ω^2)*(rdisc^2)*((3*𝛎)+1)) --> (((300/2)-100)*8)/((11.2^2)*(1^2)*((3*0.3)+1))
Evaluating ... ...
ρ = 1.67830290010741
STEP 3: Convert Result to Output's Unit
1.67830290010741 Kilogram per Cubic Meter --> No Conversion Required
FINAL ANSWER
1.67830290010741 1.678303 Kilogram per Cubic Meter <-- Density Of Disc
(Calculation completed in 00.004 seconds)

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Density of Disc Calculators

Density of material given Circumferential stress in solid disc
​ LaTeX ​ Go Density Of Disc = (((Constant at Boundary Condition/2)-Circumferential Stress)*8)/((Angular Velocity^2)*(Disc Radius^2)*((3*Poisson's Ratio)+1))
Density of disc material given Radial stress in solid disc and outer radius
​ LaTeX ​ Go Density Of Disc = ((8*Radial Stress)/((Angular Velocity^2)*(3+Poisson's Ratio)*((Outer Radius Disc^2)-(Radius of Element^2))))
Density of material given constant at boundary condition for circular disc
​ LaTeX ​ Go Density Of Disc = (8*Constant at Boundary Condition)/((Angular Velocity^2)*(Outer Radius Disc^2)*(3+Poisson's Ratio))
Density of material given Circumferential stress at center of solid disc
​ LaTeX ​ Go Density Of Disc = ((8*Circumferential Stress)/((Angular Velocity^2)*(3+Poisson's Ratio)*(Outer Radius Disc^2)))

Density of material given Circumferential stress in solid disc Formula

​LaTeX ​Go
Density Of Disc = (((Constant at Boundary Condition/2)-Circumferential Stress)*8)/((Angular Velocity^2)*(Disc Radius^2)*((3*Poisson's Ratio)+1))
ρ = (((C1/2)-σc)*8)/((ω^2)*(rdisc^2)*((3*𝛎)+1))

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 Density of material given Circumferential stress in solid disc?

Density of material given Circumferential stress in solid disc calculator uses Density Of Disc = (((Constant at Boundary Condition/2)-Circumferential Stress)*8)/((Angular Velocity^2)*(Disc Radius^2)*((3*Poisson's Ratio)+1)) to calculate the Density Of Disc, The Density of material given Circumferential stress in solid disc formula is defined as a measure of mass per volume. An object made from a comparatively dense material (such as iron) will have less volume than an object of equal mass made from some less dense substance (such as water). Density Of Disc is denoted by ρ symbol.

How to calculate Density of material given Circumferential stress in solid disc using this online calculator? To use this online calculator for Density of material given Circumferential stress in solid disc, enter Constant at Boundary Condition (C1), Circumferential Stress c), Angular Velocity (ω), Disc Radius (rdisc) & Poisson's Ratio (𝛎) and hit the calculate button. Here is how the Density of material given Circumferential stress in solid disc calculation can be explained with given input values -> 1.678303 = (((300/2)-100)*8)/((11.2^2)*(1^2)*((3*0.3)+1)).

FAQ

What is Density of material given Circumferential stress in solid disc?
The Density of material given Circumferential stress in solid disc formula is defined as a measure of mass per volume. An object made from a comparatively dense material (such as iron) will have less volume than an object of equal mass made from some less dense substance (such as water) and is represented as ρ = (((C1/2)-σc)*8)/((ω^2)*(rdisc^2)*((3*𝛎)+1)) or Density Of Disc = (((Constant at Boundary Condition/2)-Circumferential Stress)*8)/((Angular Velocity^2)*(Disc Radius^2)*((3*Poisson's Ratio)+1)). Constant at boundary condition is a type of boundary condition used in mathematical and physical problems where a specific variable is held constant along the boundary of the domain, Circumferential stress, also known as hoop stress, is a type of normal stress that acts tangentially to the circumference of a cylindrical or spherical object, Angular velocity is a measure of how quickly an object rotates or revolves around a central point or axis, describes the rate of change of the angular position of the object with respect to time, Disc radius is the distance from the center of the disc to any point on its circumference & Poisson's ratio is a measure of the deformation of a material in directions perpendicular to the direction of loading. It is defined as the negative ratio of transverse strain to axial strain.
How to calculate Density of material given Circumferential stress in solid disc?
The Density of material given Circumferential stress in solid disc formula is defined as a measure of mass per volume. An object made from a comparatively dense material (such as iron) will have less volume than an object of equal mass made from some less dense substance (such as water) is calculated using Density Of Disc = (((Constant at Boundary Condition/2)-Circumferential Stress)*8)/((Angular Velocity^2)*(Disc Radius^2)*((3*Poisson's Ratio)+1)). To calculate Density of material given Circumferential stress in solid disc, you need Constant at Boundary Condition (C1), Circumferential Stress c), Angular Velocity (ω), Disc Radius (rdisc) & Poisson's Ratio (𝛎). With our tool, you need to enter the respective value for Constant at Boundary Condition, Circumferential Stress, Angular Velocity, Disc Radius & Poisson's Ratio 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 Density Of Disc?
In this formula, Density Of Disc uses Constant at Boundary Condition, Circumferential Stress, Angular Velocity, Disc Radius & Poisson's Ratio. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Density Of Disc = ((8*Radial Stress)/((Angular Velocity^2)*(3+Poisson's Ratio)*((Outer Radius Disc^2)-(Radius of Element^2))))
  • Density Of Disc = ((8*Circumferential Stress)/((Angular Velocity^2)*(3+Poisson's Ratio)*(Outer Radius Disc^2)))
  • Density Of Disc = (8*Constant at Boundary Condition)/((Angular Velocity^2)*(Outer Radius Disc^2)*(3+Poisson's Ratio))
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