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Crippling Load for any type of End Condition Calculator

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Estimation of Effective Length of ColumnsShort Columns
Crippling Load
Modulus of elasticity of column also known as Young’s modulus, is a measure of a material’s stiffness or rigidity which quantifies the relationship between stress and strain.Modulus of Elasticity of Column [εc]
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Moment of Inertia Column is the measure of the resistance of a body to angular acceleration about a given axis.Moment of Inertia Column [I]
+10%
-10%
Effective length of column is the length of an equivalent pin-ended column that has the same load-carrying capacity as the actual column under consideration.Effective Length of Column [Le]
+10%
-10%
Column crippling load also known as the buckling load, is the maximum axial compressive load that a column can withstand before it buckles or fails due to instability.Crippling Load for any type of End Condition [Pcr]
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Crippling Load for any type of End Condition Solution

STEP 0: Pre-Calculation Summary
Formula Used
Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Moment of Inertia Column)/(Effective Length of Column^2)
Pcr = (pi^2*εc*I)/(Le^2)
This formula uses 1 Constants, 4 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Column Crippling Load - (Measured in Newton) - Column crippling load also known as the buckling load, is the maximum axial compressive load that a column can withstand before it buckles or fails due to instability.
Modulus of Elasticity of Column - (Measured in Pascal) - Modulus of elasticity of column also known as Young’s modulus, is a measure of a material’s stiffness or rigidity which quantifies the relationship between stress and strain.
Moment of Inertia Column - (Measured in Meter⁴) - Moment of Inertia Column is the measure of the resistance of a body to angular acceleration about a given axis.
Effective Length of Column - (Measured in Meter) - Effective length of column is the length of an equivalent pin-ended column that has the same load-carrying capacity as the actual column under consideration.
STEP 1: Convert Input(s) to Base Unit
Modulus of Elasticity of Column: 10.56 Megapascal --> 10560000 Pascal (Check conversion ​here)
Moment of Inertia Column: 60000 Centimeter⁴ --> 0.0006 Meter⁴ (Check conversion ​here)
Effective Length of Column: 2500 Millimeter --> 2.5 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Pcr = (pi^2*εc*I)/(Le^2) --> (pi^2*10560000*0.0006)/(2.5^2)
Evaluating ... ...
Pcr = 10005.4101576483
STEP 3: Convert Result to Output's Unit
10005.4101576483 Newton --> No Conversion Required
FINAL ANSWER
10005.4101576483 10005.41 Newton <-- Column Crippling Load
(Calculation completed in 00.020 seconds)
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Crippling Load Calculators

Crippling Load given Effective Length and Radius of Gyration
​ LaTeX ​ Go Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Column Cross-Sectional Area*Least Radius of Gyration of Column^2)/(Effective Length of Column^2)
Crippling Stress
​ LaTeX ​ Go Crippling Stress = (pi^2*Modulus of Elasticity of Column*Least Radius of Gyration of Column^2)/(Effective Length of Column^2)
Crippling Load for any type of End Condition
​ LaTeX ​ Go Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Moment of Inertia Column)/(Effective Length of Column^2)
Crippling Stress given Crippling Load
​ LaTeX ​ Go Crippling Stress = Column Crippling Load/Column Cross-Sectional Area

Crippling Load and Stress Calculators

Crippling Load given Effective Length and Radius of Gyration
​ LaTeX ​ Go Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Column Cross-Sectional Area*Least Radius of Gyration of Column^2)/(Effective Length of Column^2)
Crippling Stress
​ LaTeX ​ Go Crippling Stress = (pi^2*Modulus of Elasticity of Column*Least Radius of Gyration of Column^2)/(Effective Length of Column^2)
Crippling Load for any type of End Condition
​ LaTeX ​ Go Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Moment of Inertia Column)/(Effective Length of Column^2)
Crippling Stress given Crippling Load
​ LaTeX ​ Go Crippling Stress = Column Crippling Load/Column Cross-Sectional Area

Crippling Load for any type of End Condition Formula

​LaTeX ​Go
Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Moment of Inertia Column)/(Effective Length of Column^2)
Pcr = (pi^2*εc*I)/(Le^2)

What is meant by Effective Length of a Column also define Slenderness Ratio?

The effective length of the column is the length of an equivalent column of the same material and cross-sectional area with hinged ends and having the value of the crippling load equal to that of the given column. The least radius of gyration is the radius of gyration where the least moment of inertia is considered.

How to Calculate Crippling Load for any type of End Condition?

Crippling Load for any type of End Condition calculator uses Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Moment of Inertia Column)/(Effective Length of Column^2) to calculate the Column Crippling Load, Crippling Load for any type of End Condition formula is defined as a measure of the maximum load that a column can withstand without buckling or failing, taking into account the effective length of the column and its material properties, providing a critical safety factor in structural design and engineering applications. Column Crippling Load is denoted by Pcr symbol.

How to calculate Crippling Load for any type of End Condition using this online calculator? To use this online calculator for Crippling Load for any type of End Condition, enter Modulus of Elasticity of Column c), Moment of Inertia Column (I) & Effective Length of Column (Le) and hit the calculate button. Here is how the Crippling Load for any type of End Condition calculation can be explained with given input values -> 10005.41 = (pi^2*10560000*0.0006)/(2.5^2).

FAQ

What is Crippling Load for any type of End Condition?
Crippling Load for any type of End Condition formula is defined as a measure of the maximum load that a column can withstand without buckling or failing, taking into account the effective length of the column and its material properties, providing a critical safety factor in structural design and engineering applications and is represented as Pcr = (pi^2*εc*I)/(Le^2) or Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Moment of Inertia Column)/(Effective Length of Column^2). Modulus of elasticity of column also known as Young’s modulus, is a measure of a material’s stiffness or rigidity which quantifies the relationship between stress and strain, Moment of Inertia Column is the measure of the resistance of a body to angular acceleration about a given axis & Effective length of column is the length of an equivalent pin-ended column that has the same load-carrying capacity as the actual column under consideration.
How to calculate Crippling Load for any type of End Condition?
Crippling Load for any type of End Condition formula is defined as a measure of the maximum load that a column can withstand without buckling or failing, taking into account the effective length of the column and its material properties, providing a critical safety factor in structural design and engineering applications is calculated using Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Moment of Inertia Column)/(Effective Length of Column^2). To calculate Crippling Load for any type of End Condition, you need Modulus of Elasticity of Column c), Moment of Inertia Column (I) & Effective Length of Column (Le). With our tool, you need to enter the respective value for Modulus of Elasticity of Column, Moment of Inertia Column & Effective Length of Column 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 Column Crippling Load?
In this formula, Column Crippling Load uses Modulus of Elasticity of Column, Moment of Inertia Column & Effective Length of Column. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Column Cross-Sectional Area*Least Radius of Gyration of Column^2)/(Effective Length of Column^2)
  • Column Crippling Load = (pi^2*Modulus of Elasticity of Column*Column Cross-Sectional Area*Least Radius of Gyration of Column^2)/(Effective Length of Column^2)
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