How to Calculate Least Radius of Gyration given Crippling Load and Rankine's Constant?
Least Radius of Gyration given Crippling Load and Rankine's Constant calculator uses Least Radius of Gyration Column = sqrt((Rankine's Constant*Effective Column Length^2)/(Column Crushing Stress*Column Cross Sectional Area/Crippling Load-1)) to calculate the Least Radius of Gyration Column, The Least Radius of Gyration given Crippling Load and Rankine's Constant formula is defined as a measure that determines the minimum radius of gyration of a column under a crippling load, considering the effective length, cross-sectional area, and crippling stress, which is essential in Euler and Rankine's theory of column design. Least Radius of Gyration Column is denoted by rleast symbol.
How to calculate Least Radius of Gyration given Crippling Load and Rankine's Constant using this online calculator? To use this online calculator for Least Radius of Gyration given Crippling Load and Rankine's Constant, enter Rankine's Constant (α), Effective Column Length (Leff), Column Crushing Stress (σc), Column Cross Sectional Area (A) & Crippling Load (P) and hit the calculate button. Here is how the Least Radius of Gyration given Crippling Load and Rankine's Constant calculation can be explained with given input values -> 47020 = sqrt((0.00038*3^2)/(750000000*0.002/588952.4-1)).