Constant 'a' for outer cylinder given hoop stress at radius x Solution

STEP 0: Pre-Calculation Summary
Formula Used
Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell
a1 = -(b1/(rcylindrical shell^2))+σθ
This formula uses 4 Variables
Variables Used
Constant 'a' for outer cylinder - Constant 'a' for outer cylinder is defined as the constant used in lame's equation.
Constant 'b' for outer cylinder - Constant 'b' for outer cylinder is defined as the constant used in lame's equation.
Radius Of Cylindrical Shell - (Measured in Meter) - Radius Of Cylindrical Shell is a radial line from the focus to any point of a curve.
Hoop Stress on thick shell - (Measured in Pascal) - Hoop Stress on thick shell is the circumferential stress in a cylinder.
STEP 1: Convert Input(s) to Base Unit
Constant 'b' for outer cylinder: 25 --> No Conversion Required
Radius Of Cylindrical Shell: 8000 Millimeter --> 8 Meter (Check conversion ​here)
Hoop Stress on thick shell: 0.002 Megapascal --> 2000 Pascal (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
a1 = -(b1/(rcylindrical shell^2))+σθ --> -(25/(8^2))+2000
Evaluating ... ...
a1 = 1999.609375
STEP 3: Convert Result to Output's Unit
1999.609375 --> No Conversion Required
FINAL ANSWER
1999.609375 1999.609 <-- Constant 'a' for outer cylinder
(Calculation completed in 00.020 seconds)

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Stress Constants in Compound Thick Cylinder Calculators

Constant 'a' for outer cylinder given hoop stress at radius x and constant b
​ LaTeX ​ Go Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell
Constant 'a' for outer cylinder given hoop stress at radius x
​ LaTeX ​ Go Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell
Constant 'a' for outer cylinder given radial pressure at radius x
​ LaTeX ​ Go Constant 'a' for outer cylinder = (Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))-Radial Pressure
Constant 'b' for outer cylinder given radial pressure at radius x
​ LaTeX ​ Go Constant 'b' for outer cylinder = (Radial Pressure+Constant 'a' for outer cylinder)*(Radius Of Cylindrical Shell^2)

Constant 'a' for outer cylinder given hoop stress at radius x Formula

​LaTeX ​Go
Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell
a1 = -(b1/(rcylindrical shell^2))+σθ

What is radial stress in cylinder?

The radial stress for a thick-walled cylinder is equal and opposite to the gauge pressure on the inside surface, and zero on the outside surface. The circumferential stress and longitudinal stresses are usually much larger for pressure vessels, and so for thin-walled instances, radial stress is usually neglected.

How to Calculate Constant 'a' for outer cylinder given hoop stress at radius x?

Constant 'a' for outer cylinder given hoop stress at radius x calculator uses Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell to calculate the Constant 'a' for outer cylinder, The Constant 'a' for outer cylinder given hoop stress at radius x formula is defined as the constant used in lame's equation for the thick compound cylinder. Constant 'a' for outer cylinder is denoted by a1 symbol.

How to calculate Constant 'a' for outer cylinder given hoop stress at radius x using this online calculator? To use this online calculator for Constant 'a' for outer cylinder given hoop stress at radius x, enter Constant 'b' for outer cylinder (b1), Radius Of Cylindrical Shell (rcylindrical shell) & Hoop Stress on thick shell θ) and hit the calculate button. Here is how the Constant 'a' for outer cylinder given hoop stress at radius x calculation can be explained with given input values -> 1999.609 = -(25/(8^2))+2000.

FAQ

What is Constant 'a' for outer cylinder given hoop stress at radius x?
The Constant 'a' for outer cylinder given hoop stress at radius x formula is defined as the constant used in lame's equation for the thick compound cylinder and is represented as a1 = -(b1/(rcylindrical shell^2))+σθ or Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell. Constant 'b' for outer cylinder is defined as the constant used in lame's equation, Radius Of Cylindrical Shell is a radial line from the focus to any point of a curve & Hoop Stress on thick shell is the circumferential stress in a cylinder.
How to calculate Constant 'a' for outer cylinder given hoop stress at radius x?
The Constant 'a' for outer cylinder given hoop stress at radius x formula is defined as the constant used in lame's equation for the thick compound cylinder is calculated using Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell. To calculate Constant 'a' for outer cylinder given hoop stress at radius x, you need Constant 'b' for outer cylinder (b1), Radius Of Cylindrical Shell (rcylindrical shell) & Hoop Stress on thick shell θ). With our tool, you need to enter the respective value for Constant 'b' for outer cylinder, Radius Of Cylindrical Shell & Hoop Stress on thick shell 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 Constant 'a' for outer cylinder?
In this formula, Constant 'a' for outer cylinder uses Constant 'b' for outer cylinder, Radius Of Cylindrical Shell & Hoop Stress on thick shell. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Constant 'a' for outer cylinder = (Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))-Radial Pressure
  • Constant 'a' for outer cylinder = -(Constant 'b' for outer cylinder/(Radius Of Cylindrical Shell^2))+Hoop Stress on thick shell
  • Constant 'a' for outer cylinder = (Constant 'b' for outer cylinder/(Radius at Junction^2))-Radial Pressure
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