Agricultural Engineering Exam  >  Agricultural Engineering Notes  >  Strength of Material Notes - Agricultural Engg  >  Eccentrically Loaded Columns(Secant Formula) - Columns and Struts, Strength of Materials

Eccentrically Loaded Columns(Secant Formula) - Columns and Struts, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering PDF Download

Eccentrically Loaded Columns – Secant Formula

Consider an eccentrically loaded slender column as shown in Figure 23.1a.

Fig. 23.1.

The equation of elastic line becomes,

\[{{{d^2}y} \over {d{x^2}}}=-{{{M_x}} \over {EI}}\]                                     (23.1)

\[\Rightarrow {{{d^2}y} \over {d{x^2}}} + {P \over {EI}}\left( {e + y} \right) = 0\]     (23.2)

\[\Rightarrow {{{d^2}y} \over {d{x^2}}} + {k^2}y=-{k^2}e\]                                          (23.3)

where, \[{k^2} = {P / {EI}}\]

The general solution of equation (23.3) is,

\[y=A\cos kx + B\sin kx - e\]                           (23.4)

Constants A and B are determined from the boundary conditions as follows,

\[y(x = 0)=0 \Rightarrow A=e\]

\[y(x = l)=0 \Rightarrow B={{1 - \cos kl} \over {\sin kl}}e\]

Substituting A and B in equation (23.4) yields,

\[y=\left( {\cos kx + {{1 - \cos kl} \over {\sin kl}}\sin kx - 1} \right)e\]                               (23.5)

Lateral deflection at mid-height (y = l/2),

\[{\left. y \right|_{x = l/2}}=\left( {\cos {{kl} \over 2} + {{1 - \cos kl} \over {\sin kl}}\sin {{kl} \over 2} - 1} \right)e\]                          (23.6)

\[\Rightarrow {\left. y \right|_{x = l/2}}=\left( {\sec {{kl} \over 2} - 1} \right)e\]                                                (23.7)

Writing equation (23.7) in terms of Euler load \[{P_E}={\pi ^2}EI/{l^2}\]  ,

\[{\left. y \right|_{x = l/2}}=\left[ {\sec \left( {{\pi\over 2}\sqrt {{P \over{{P_E}}}} } \right) - 1} \right]e\]                                    (23.8)

The document Eccentrically Loaded Columns(Secant Formula) - Columns and Struts, Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering is a part of the Agricultural Engineering Course Strength of Material Notes - Agricultural Engg.
All you need of Agricultural Engineering at this link: Agricultural Engineering
34 docs

FAQs on Eccentrically Loaded Columns(Secant Formula) - Columns and Struts, Strength of Materials - Strength of Material Notes - Agricultural Engg - Agricultural Engineering

1. What is the secant formula for eccentrically loaded columns?
Ans. The secant formula for eccentrically loaded columns is a mathematical equation used to calculate the strength of a column under eccentric loading. It is given by the formula: P/A + M/(A * e) <= σc Where P is the axial load, A is the cross-sectional area of the column, M is the moment applied to the column, e is the eccentricity of the load, and σc is the permissible stress.
2. How is the eccentricity of the load defined in the secant formula?
Ans. The eccentricity of the load in the secant formula represents the distance between the line of action of the applied force and the centroid of the column's cross-sectional area. It is a measure of how off-centered the load is with respect to the column's axis. The eccentricity is denoted by the symbol 'e' in the formula.
3. What does the inequality in the secant formula represent?
Ans. The inequality in the secant formula represents the condition for the column's stability under eccentric loading. The left side of the inequality represents the combined effect of the axial load and the moment applied to the column, while the right side represents the permissible stress. If the left side is less than or equal to the right side, the column is considered to be stable and can withstand the applied load without failure.
4. Are there any limitations to using the secant formula for eccentrically loaded columns?
Ans. Yes, there are some limitations to using the secant formula for eccentrically loaded columns. Firstly, it assumes that the column material behaves linearly and elastically, which may not be the case for all materials. Secondly, the formula does not take into account the effects of buckling, which can significantly affect the column's stability. Therefore, it is important to consider these limitations and use the secant formula as a preliminary approximation, rather than a definitive design tool.
5. How can the strength of eccentrically loaded columns be improved?
Ans. The strength of eccentrically loaded columns can be improved by several measures. One approach is to increase the cross-sectional area of the column, thereby increasing its load-carrying capacity. Another approach is to reduce the eccentricity of the applied load by repositioning the load or providing additional supports. Additionally, using materials with higher strength properties can also enhance the column's resistance to eccentric loading. It is crucial to consult structural engineering principles and guidelines to ensure the safety and efficiency of column design in specific applications.
34 docs
Download as PDF
Explore Courses for Agricultural Engineering exam
Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

study material

,

Previous Year Questions with Solutions

,

pdf

,

past year papers

,

ppt

,

Exam

,

Viva Questions

,

Free

,

Eccentrically Loaded Columns(Secant Formula) - Columns and Struts

,

Objective type Questions

,

Extra Questions

,

Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering

,

Important questions

,

MCQs

,

mock tests for examination

,

Eccentrically Loaded Columns(Secant Formula) - Columns and Struts

,

video lectures

,

Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering

,

practice quizzes

,

Summary

,

shortcuts and tricks

,

Eccentrically Loaded Columns(Secant Formula) - Columns and Struts

,

Strength of Materials | Strength of Material Notes - Agricultural Engg - Agricultural Engineering

,

Sample Paper

,

Semester Notes

;