Moment of Inertia given Thickness of Pipe Calculator

✖Thickness of Pipe is the smaller dimension of pipe. It is the distance between the inner and outer or front and back surfaces of the pipe.ⓘ Thickness of Pipe [t_pipe]

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✖Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis.ⓘ Moment of Inertia given Thickness of Pipe [I]

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Formula

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Moment of Inertia given Thickness of Pipe

Formula

`"I" = (("t"_{"pipe"})^3)/12`

Example

`"0.078433kg·m²"=(("0.98m")^3)/12`

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Moment of Inertia given Thickness of Pipe Solution

STEP 0: Pre-Calculation Summary

Formula Used

Moment of Inertia = ((Thickness of Pipe)^3)/12
I = ((t_pipe)^3)/12
This formula uses 2 Variables

Variables Used

Moment of Inertia - (Measured in Kilogram Square Meter) - Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis.
Thickness of Pipe - (Measured in Meter) - Thickness of Pipe is the smaller dimension of pipe. It is the distance between the inner and outer or front and back surfaces of the pipe.

STEP 1: Convert Input(s) to Base Unit

Thickness of Pipe: 0.98 Meter --> 0.98 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

I = ((t_pipe)^3)/12 --> ((0.98)^3)/12

Evaluating ... ...

I = 0.0784326666666667

STEP 3: Convert Result to Output's Unit

0.0784326666666667 Kilogram Square Meter --> No Conversion Required

FINAL ANSWER

0.0784326666666667 ≈ 0.078433 Kilogram Square Meter <-- Moment of Inertia

(Calculation completed in 00.004 seconds)

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Created by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

Suraj Kumar has created this Calculator and 2200+ more calculators!

Verified by Ishita Goyal

Meerut Institute of Engineering and Technology (MIET), Meerut

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< 14 Steel Pipes Calculators

Internal Pressure given Plate Thickness

Go Internal Pressure of pipe = Plate Thickness in Millimeter/((Pipe Radius in Millimeter)/(Permissible Tensile Stress*Joint Efficiency of Pipe))

Radius of Pipe given Plate Thickness

Go Pipe Radius in Millimeter = Plate Thickness in Millimeter/((Internal Pressure of pipe)/(Permissible Tensile Stress*Joint Efficiency of Pipe))

Plate Thickness Required to Resist Internal Pressure

Go Plate Thickness in Millimeter = (Internal Pressure of pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Joint Efficiency of Pipe)

Permissible Tensile Stress given Plate Thickness

Go Permissible Tensile Stress = (Internal Pressure of pipe*Pipe Radius in Millimeter)/(Plate Thickness in Millimeter*Joint Efficiency of Pipe)

Joint Efficiency given Plate Thickness

Go Joint Efficiency of Pipe = (Internal Pressure of pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Plate Thickness in Millimeter)

Diameter of Pipe given Critical External Pressure

Go Diameter of Pipe = ((20*Modulus of Elasticity*Moment of Inertia)/Critical Pressure in Pipe)^(1/3)

Modulus of Elasticity of Metal given Critical External Pressure

Go Modulus of Elasticity = Critical Pressure in Pipe/((20*Moment of Inertia)/(Diameter of Pipe)^3)

Critical External Pressure

Go Critical Pressure in Pipe = (20*Modulus of Elasticity*Moment of Inertia)/(Diameter of Pipe)^3

Thickness of Pipe given Critical External Pressure

Go Thickness of Pipe = Critical Pressure/((5*Modulus of Elasticity)/(3*Diameter of Pipe))^(1/3)

Modulus of Elasticity of Metal given Thickness of Pipe and critical external pressure

Go Modulus of Elasticity = (Critical Pressure*3*Diameter of Pipe)/(5*(Thickness of Pipe^3))

Diameter of Pipe given Thickness of Pipe and Critical External Pressure

Go Diameter of Pipe = (5*Modulus of Elasticity*(Thickness of Pipe)^3)/(3*Critical Pressure)

Critical External Pressure given Thickness of Pipe

Go Critical Pressure = (5*Modulus of Elasticity*(Thickness of Pipe)^3)/(3*Diameter of Pipe)

Thickness of Pipe given Moment of Inertia

Go Thickness of Pipe = (12*Moment of Inertia)^(1/3)

Moment of Inertia given Thickness of Pipe

Go Moment of Inertia = ((Thickness of Pipe)^3)/12

Moment of Inertia given Thickness of Pipe Formula

Moment of Inertia = ((Thickness of Pipe)^3)/12
I = ((t_pipe)^3)/12

What is Moment of Inertia?

Moment of inertia, in physics, quantitative measure of the rotational inertia of a body—i.e., the opposition that the body exhibits to having its speed of rotation about an axis altered by the application of a torque (turning force).

How to Calculate Moment of Inertia given Thickness of Pipe?

Moment of Inertia given Thickness of Pipe calculator uses Moment of Inertia = ((Thickness of Pipe)^3)/12 to calculate the Moment of Inertia, The Moment of Inertia given Thickness of Pipe is defined as the value of moment of inertia when we have prior information of other parameters used. Moment of Inertia is denoted by I symbol.

How to calculate Moment of Inertia given Thickness of Pipe using this online calculator? To use this online calculator for Moment of Inertia given Thickness of Pipe, enter Thickness of Pipe (t_pipe) and hit the calculate button. Here is how the Moment of Inertia given Thickness of Pipe calculation can be explained with given input values -> 0.174763 = ((0.98)^3)/12.

FAQ

What is Moment of Inertia given Thickness of Pipe?

The Moment of Inertia given Thickness of Pipe is defined as the value of moment of inertia when we have prior information of other parameters used and is represented as I = ((t_pipe)^3)/12 or Moment of Inertia = ((Thickness of Pipe)^3)/12. Thickness of Pipe is the smaller dimension of pipe. It is the distance between the inner and outer or front and back surfaces of the pipe.

How to calculate Moment of Inertia given Thickness of Pipe?

The Moment of Inertia given Thickness of Pipe is defined as the value of moment of inertia when we have prior information of other parameters used is calculated using Moment of Inertia = ((Thickness of Pipe)^3)/12. To calculate Moment of Inertia given Thickness of Pipe, you need Thickness of Pipe (t_pipe). With our tool, you need to enter the respective value for Thickness of Pipe 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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