2140603 SA Syllabus
| Sr.No. | Topics | Teaching Hours | Module Weightage |
|---|---|---|---|
|
1
|
Fundamentals of Statically Determinate Structures: Types of statically determinate & indeterminate structures, static and kinematic indeterminacy, stability of structures, principle of superposition, Maxwell’s reciprocal theorems. Computation of internal forces in statically determinate structures such as plane truss, plane frame, grids. |
6
Teaching Hours
|
10.00%
Module Weightage
|
|
2
|
Displacement of Determinate Beams and Plane Truss: Differential equation of elastic curve, relation between moment, slope and deflection, Macaulay’s method, Moment Area Method, Conjugate Beam Method applied to beams. Joint displacement of determinate plane truss using unit load method. |
10
Teaching Hours
|
20.00%
Module Weightage
|
|
3
|
Direct and Bending stresses: Members subjected to eccentric loads, middle third rule, kernel of section, chimney subjected to wind pressure, retaining walls, dams subjected to hydraulic pressure. |
6
Teaching Hours
|
15.00%
Module Weightage
|
|
4
|
Columns and Struts: Buckling of columns, different end conditions, effective length, least radius of gyration, Euler’s and Rankine’s formulae, columns with initial curvature, eccentrically loaded columns, columns with lateral loading. |
6
Teaching Hours
|
10.00%
Module Weightage
|
|
5
|
Arches, Cables and Suspension Bridges: Calculation internal forces in three hinge arches with circular and parabolic shapes subjected to various types of loading. Forces and end actions in cables due to various types of loading. Unstiffened three hinged parabolic and cantenory type suspension bridge. |
8
Teaching Hours
|
10.00%
Module Weightage
|
|
6
|
Thin cylinder: Analysis of thin cylinder and spherical vessels under pressure. |
4
Teaching Hours
|
5.00%
Module Weightage
|
|
7
|
Fixed Beams & Consistent Deformation Method: Computation of fixed-end actions for various types of loads and secondary Effects using basic principles, beams of varying moment of inertia. Analysis of propped cantilever beams & beams of varying moment of inertia using Consistent Deformation Method |
6
Teaching Hours
|
10.00%
Module Weightage
|
|
8
|
Strain Energy Resilience, strain energy due to axial loads & flexure, proof resilience, modulus of resilience, impact loads, and sudden loads. |
10
Teaching Hours
|
20.00%
Module Weightage
|