How to Calculate Distance of extreme layer from neutral axis given maximum stress induced for strut?
Distance of extreme layer from neutral axis given maximum stress induced for strut calculator uses Distance from Neutral Axis to Extreme Point = (Maximum bending stress-(Column Compressive load/Column Cross Sectional Area))*(Column Cross Sectional Area*(Least Radius of Gyration Column^2))/((Greatest Safe Load*(((sqrt(Moment of Inertia Column*Modulus of Elasticity Column/Column Compressive load))/(2*Column Compressive load))*tan((Column Length/2)*(sqrt(Column Compressive load/(Moment of Inertia Column*Modulus of Elasticity Column/Column Compressive load))))))) to calculate the Distance from Neutral Axis to Extreme Point, The Distance of extreme layer from neutral axis given maximum stress induced for strut formula is defined as the distance of the extreme layer of the column from the neutral axis. Distance from Neutral Axis to Extreme Point is denoted by c symbol.
How to calculate Distance of extreme layer from neutral axis given maximum stress induced for strut using this online calculator? To use this online calculator for Distance of extreme layer from neutral axis given maximum stress induced for strut, enter Maximum bending stress (σbmax), Column Compressive load (Pcompressive), Column Cross Sectional Area (Asectional), Least Radius of Gyration Column (rleast), Greatest Safe Load (Wp), Moment of Inertia Column (I), Modulus of Elasticity Column (εcolumn) & Column Length (lcolumn) and hit the calculate button. Here is how the Distance of extreme layer from neutral axis given maximum stress induced for strut calculation can be explained with given input values -> 1.4E+11 = (2000000-(400/1.4))*(1.4*(0.04702^2))/((100*(((sqrt(5.6E-05*10560000/400))/(2*400))*tan((5/2)*(sqrt(400/(5.6E-05*10560000/400))))))).