Internal fluid pressure given constants for single thick shell in compound cylinder Calculator

✖Constant B for Single Thick Shell is the constant used in lame's equation in case of internal fluid pressure.ⓘ Constant B for Single Thick Shell [B]			+10% -10%
✖The Inner Radius of Cylinder is a straight line from the center to the Cylinder's base to inner surface of the Cylinder.ⓘ Inner Radius of Cylinder [r₁]			+10% -10%
✖Constant A for single thick shell is the constant used in lame's equation in case of internal fluid pressure.ⓘ Constant A for single thick shell [A]			+10% -10%

✖Internal Pressure is a measure of how the internal energy of a system changes when it expands or contracts at a constant temperature.ⓘ Internal fluid pressure given constants for single thick shell in compound cylinder [P_i]

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Formula

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Internal fluid pressure given constants for single thick shell in compound cylinder

Formula

`"P"_{"i"} = ("B"/("r"_{"1"}^2))-"A"`

Example

`"-1E^-6MPa"=("6"/(("2.5m")^2))-"2"`

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Internal fluid pressure given constants for single thick shell in compound cylinder Solution

STEP 0: Pre-Calculation Summary

Formula Used

Internal Pressure = (Constant B for Single Thick Shell/(Inner Radius of Cylinder^2))-Constant A for single thick shell
P_i = (B/(r₁^2))-A
This formula uses 4 Variables

Variables Used

Internal Pressure - (Measured in Pascal) - Internal Pressure is a measure of how the internal energy of a system changes when it expands or contracts at a constant temperature.
Constant B for Single Thick Shell - Constant B for Single Thick Shell is the constant used in lame's equation in case of internal fluid pressure.
Inner Radius of Cylinder - (Measured in Meter) - The Inner Radius of Cylinder is a straight line from the center to the Cylinder's base to inner surface of the Cylinder.
Constant A for single thick shell - Constant A for single thick shell is the constant used in lame's equation in case of internal fluid pressure.

STEP 1: Convert Input(s) to Base Unit

Constant B for Single Thick Shell: 6 --> No Conversion Required
Inner Radius of Cylinder: 2.5 Meter --> 2.5 Meter No Conversion Required
Constant A for single thick shell: 2 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_i = (B/(r₁^2))-A --> (6/(2.5^2))-2

Evaluating ... ...

P_i = -1.04

STEP 3: Convert Result to Output's Unit

-1.04 Pascal -->-1.04E-06 Megapascal (Check conversion here)

FINAL ANSWER

-1.04E-06 ≈ -1E-6 Megapascal <-- Internal Pressure

(Calculation completed in 00.004 seconds)

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National Institute Of Technology (NIT), Hamirpur

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< 21 Stresses in Compound Thick Cylinders Calculators

Radius 'x' for single thick shell given hoop stress due to internal fluid pressure alone

Go Radius Of Cylindrical Shell = sqrt(Constant B for Single Thick Shell/(Hoop Stress on thick shell-Constant A for single thick shell))

Radius value 'x' for outer cylinder given hoop stress at radius x

Go Radius Of Cylindrical Shell = sqrt(Constant 'b' for outer cylinder/(Hoop Stress on thick shell-Constant 'a' for outer cylinder))

Radius value 'x' for inner cylinder given hoop stress at radius x

Go Radius Of Cylindrical Shell = sqrt(Constant 'b' for inner cylinder/(Hoop Stress on thick shell-Constant 'a' for inner cylinder))

Radius 'x' for single thick shell given Radial pressure due to internal fluid pressure alone

Go Radius Of Cylindrical Shell = sqrt(Constant B for Single Thick Shell/(Radial Pressure+Constant A for single thick shell))

Inner radius of compound cylinder given internal fluid pressure

Go Inner Radius of Cylinder = sqrt(Constant B for Single Thick Shell/(Internal Pressure+Constant A for single thick shell))

Radius value 'x' for outer cylinder given radial pressure at radius x

Go Radius Of Cylindrical Shell = sqrt(Constant 'b' for outer cylinder/(Radial Pressure+Constant 'a' for outer cylinder))

Radius value 'x' for inner cylinder given radial pressure at radius x

Go Radius Of Cylindrical Shell = sqrt(Constant 'b' for inner cylinder/(Radial Pressure+Constant 'a' for inner cylinder))

Radius at junction of two cylinders given radial pressure at junction of two cylinders

Go Radius at Junction = sqrt(Constant 'b' for outer cylinder/(Radial Pressure+Constant 'a' for outer cylinder))

Radius at junction given radial pressure at junction and constants for inner radius

Go Radius at Junction = sqrt(Constant 'b' for inner cylinder/(Radial Pressure+Constant 'a' for inner cylinder))

Hoop Stress in compound cylinder due to internal fluid pressure alone

Go Hoop Stress on thick shell = (Constant B for Single Thick Shell/(Radius Of Cylindrical Shell^2))+Constant A for single thick shell

Hoop stress at radius x for outer cylinder

Go Hoop Stress on thick shell = (Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+(Constant 'a' for outer cylinder)

Hoop stress at radius x for inner cylinder

Go Hoop Stress on thick shell = (Constant 'b' for inner cylinder/(Radius Of Cylindrical Shell^2))+(Constant 'a' for inner cylinder)

Radial pressure in compound cylinder due to internal fluid pressure alone

Go Radial Pressure = (Constant B for Single Thick Shell/(Radius Of Cylindrical Shell^2))-Constant A for single thick shell

Internal fluid pressure given constants for single thick shell in compound cylinder

Go Internal Pressure = (Constant B for Single Thick Shell/(Inner Radius of Cylinder^2))-Constant A for single thick shell

Radial pressure at radius 'x' for inner cylinder

Go Radial Pressure = (Constant 'b' for inner cylinder/(Radius Of Cylindrical Shell^2))-(Constant 'a' for inner cylinder)

Radial pressure at radius x for outer cylinder

Go Radial Pressure = (Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))-(Constant 'a' for outer cylinder)

Radial pressure at junction given constants 'a' and 'b' for outer cylinder

Go Radial Pressure = (Constant 'b' for outer cylinder/(Radius at Junction^2))-(Constant 'a' for outer cylinder)

Radial pressure at junction of compound cylinder given constant and b for inner cylinder

Go Radial Pressure = (Constant 'b' for inner cylinder/(Radius at Junction^2))-Constant 'a' for inner cylinder

Outer radius of compound cylinder given constants A and B for single thick shell

Go Outer Radius of Cylinder = sqrt(Constant B for Single Thick Shell/Constant A for single thick shell)

Outer radius of compound cylinder given constants and b for outer cylinder

Go Outer Radius of Cylinder = sqrt(Constant 'b' for outer cylinder/Constant 'a' for outer cylinder)

Outer radius of compound cylinder given constants and b for inner cylinder

Go Outer Radius of Cylinder = sqrt(Constant 'b' for inner cylinder/Constant 'a' for inner cylinder)

Internal fluid pressure given constants for single thick shell in compound cylinder Formula

Internal Pressure = (Constant B for Single Thick Shell/(Inner Radius of Cylinder^2))-Constant A for single thick shell
P_i = (B/(r₁^2))-A

What is meant by hoop stress?

The hoop stress is the force over area exerted circumferentially (perpendicular to the axis and the radius of the object) in both directions on every particle in the cylinder wall.

How to Calculate Internal fluid pressure given constants for single thick shell in compound cylinder?

Internal fluid pressure given constants for single thick shell in compound cylinder calculator uses Internal Pressure = (Constant B for Single Thick Shell/(Inner Radius of Cylinder^2))-Constant A for single thick shell to calculate the Internal Pressure, The Internal fluid pressure given constants for single thick shell in compound cylinder formula is defined as a measure of how the internal energy of a system changes when it expands or contracts at constant temperature. Internal Pressure is denoted by P_i symbol.

How to calculate Internal fluid pressure given constants for single thick shell in compound cylinder using this online calculator? To use this online calculator for Internal fluid pressure given constants for single thick shell in compound cylinder, enter Constant B for Single Thick Shell (B), Inner Radius of Cylinder (r₁) & Constant A for single thick shell (A) and hit the calculate button. Here is how the Internal fluid pressure given constants for single thick shell in compound cylinder calculation can be explained with given input values -> -1E-12 = (6/(2.5^2))-2.

FAQ

What is Internal fluid pressure given constants for single thick shell in compound cylinder?

The Internal fluid pressure given constants for single thick shell in compound cylinder formula is defined as a measure of how the internal energy of a system changes when it expands or contracts at constant temperature and is represented as P_i = (B/(r₁^2))-A or Internal Pressure = (Constant B for Single Thick Shell/(Inner Radius of Cylinder^2))-Constant A for single thick shell. Constant B for Single Thick Shell is the constant used in lame's equation in case of internal fluid pressure, The Inner Radius of Cylinder is a straight line from the center to the Cylinder's base to inner surface of the Cylinder & Constant A for single thick shell is the constant used in lame's equation in case of internal fluid pressure.

How to calculate Internal fluid pressure given constants for single thick shell in compound cylinder?

The Internal fluid pressure given constants for single thick shell in compound cylinder formula is defined as a measure of how the internal energy of a system changes when it expands or contracts at constant temperature is calculated using Internal Pressure = (Constant B for Single Thick Shell/(Inner Radius of Cylinder^2))-Constant A for single thick shell. To calculate Internal fluid pressure given constants for single thick shell in compound cylinder, you need Constant B for Single Thick Shell (B), Inner Radius of Cylinder (r₁) & Constant A for single thick shell (A). With our tool, you need to enter the respective value for Constant B for Single Thick Shell, Inner Radius of Cylinder & Constant A for single thick shell 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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