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## Credits

National Institute of Technology (NIT), Tiruchirapalli
Vaibhav Malani has created this Calculator and 500+ more calculators!
National Institute Of Technology (NIT), Hamirpur
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## Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc Solution

STEP 0: Pre-Calculation Summary
Formula Used
change_in_external_load = External Force*(stiffness of the bolt/(Combined stiffness+stiffness of the bolt))
ΔP = P*(kb/(Kc+kb))
This formula uses 3 Variables
Variables Used
External Force - The External Force Vaue: External Force (Measured in Newton)
stiffness of the bolt - stiffness of the bolt is the extent to which bolt resists deformation in response to an applied force. (Measured in Newton per Meter)
Combined stiffness- Combined stiffness is the combined values of stiffness of two springs
STEP 1: Convert Input(s) to Base Unit
External Force: 10 Newton --> 10 Newton No Conversion Required
stiffness of the bolt: 1 Newton per Meter --> 1 Newton per Meter No Conversion Required
Combined stiffness: 10 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ΔP = P*(kb/(Kc+kb)) --> 10*(1/(10+1))
Evaluating ... ...
ΔP = 0.909090909090909
STEP 3: Convert Result to Output's Unit
0.909090909090909 Newton --> No Conversion Required
0.909090909090909 Newton <-- Change In External Load
(Calculation completed in 00.016 seconds)

## < 10+ Design of Pressure Vessels Calculators

Longitudinal Stress in a Thin Cylinder in Terms of Internal Pressure
longitudinal_stress = Internal Pressure*Inner Diameter/(4*Thickness of Cylinder Wall) Go
Cylinder Wall Thickness of a Thin Cylinder in Terms of Longitudinal Stress
thickness_of_cylinder_wall = Internal Pressure*Inner Diameter/(4*Tangential stress) Go
Cylinder Wall Thickness of a Thin Cylinder in Terms of Tangential Stress
thickness_of_cylinder_wall = Internal Pressure*Inner Diameter/(2*Tangential stress) Go
Tangential Stress in a Thin Cylinder in Terms of Internal Pressure
tangential_stress = Internal Pressure*Inner Diameter/(2*Thickness of Cylinder Wall) Go
Internal Pressure of a Thin Cylinder in Terms of Longitudinal Stress
internal_pressure = 4*Thickness of Cylinder Wall*Tangential stress/Inner Diameter Go
Internal Pressure of a Thin Cylinder in Terms of Tangential Stress
internal_pressure = 2*Thickness of Cylinder Wall*Tangential stress/Inner Diameter Go
Inner Diameter of a Thin Cylinder in Terms of Longitudinal Stress
inner_diameter = 4*Thickness of Cylinder Wall*Tangential stress/Internal Pressure Go
Inner Diameter of a Thin Cylinder in Terms of Tangential Stress
inner_diameter = 2*Thickness of Cylinder Wall*Tangential stress/Internal Pressure Go
Permissible Tensile Stress of a Thin Spherical Shell
permissible_tensile_stress = Internal Pressure*Inner Diameter/(4*Thickness) Go
Internal Pressure of a Thin Spherical Shell in Terms of Permissible Tensile Stress
internal_pressure = 4*Thickness*Permissible Tensile Stress/Inner Diameter Go

### Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc Formula

change_in_external_load = External Force*(stiffness of the bolt/(Combined stiffness+stiffness of the bolt))
ΔP = P*(kb/(Kc+kb))

## What is a Pressure Vessel?

A pressure vessel is a container designed to hold gases or liquids at a pressure substantially different from the ambient pressure.

## How to Calculate Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc?

Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc calculator uses change_in_external_load = External Force*(stiffness of the bolt/(Combined stiffness+stiffness of the bolt)) to calculate the Change In External Load, The Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc formula is defined as the product of external force and the ratio stiffness of bolt to the sum of combined stiffness and stiffness of bolt. Change In External Load and is denoted by ΔP symbol.

How to calculate Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc using this online calculator? To use this online calculator for Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc, enter External Force (P), stiffness of the bolt (kb) and Combined stiffness (Kc) and hit the calculate button. Here is how the Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc calculation can be explained with given input values -> 0.909091 = 10*(1/(10+1)).

### FAQ

What is Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc?
The Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc formula is defined as the product of external force and the ratio stiffness of bolt to the sum of combined stiffness and stiffness of bolt and is represented as ΔP = P*(kb/(Kc+kb)) or change_in_external_load = External Force*(stiffness of the bolt/(Combined stiffness+stiffness of the bolt)). The External Force Vaue: External Force, stiffness of the bolt is the extent to which bolt resists deformation in response to an applied force and Combined stiffness is the combined values of stiffness of two springs.
How to calculate Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc?
The Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc formula is defined as the product of external force and the ratio stiffness of bolt to the sum of combined stiffness and stiffness of bolt is calculated using change_in_external_load = External Force*(stiffness of the bolt/(Combined stiffness+stiffness of the bolt)). To calculate Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc, you need External Force (P), stiffness of the bolt (kb) and Combined stiffness (Kc). With our tool, you need to enter the respective value for External Force, stiffness of the bolt and Combined stiffness 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 Change In External Load?
In this formula, Change In External Load uses External Force, stiffness of the bolt and Combined stiffness. We can use 10 other way(s) to calculate the same, which is/are as follows -
• tangential_stress = Internal Pressure*Inner Diameter/(2*Thickness of Cylinder Wall)
• internal_pressure = 2*Thickness of Cylinder Wall*Tangential stress/Inner Diameter
• inner_diameter = 2*Thickness of Cylinder Wall*Tangential stress/Internal Pressure
• thickness_of_cylinder_wall = Internal Pressure*Inner Diameter/(2*Tangential stress)
• longitudinal_stress = Internal Pressure*Inner Diameter/(4*Thickness of Cylinder Wall)
• internal_pressure = 4*Thickness of Cylinder Wall*Tangential stress/Inner Diameter
• inner_diameter = 4*Thickness of Cylinder Wall*Tangential stress/Internal Pressure
• thickness_of_cylinder_wall = Internal Pressure*Inner Diameter/(4*Tangential stress)
• permissible_tensile_stress = Internal Pressure*Inner Diameter/(4*Thickness)
• internal_pressure = 4*Thickness*Permissible Tensile Stress/Inner Diameter
Where is the Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc calculator used?
Among many, Change in External Load due to Pressure Inside the Cylinder in Terms kb and kc calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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