Lec 1: Review of Basic Structural Analysis
Lec 2: Review of Basic Structural Analysis-1
Lec 3: Contd Review of Basic Structural Analysis-1
Lec 4: Contd Review of Basic Structural Analysis-1
Lec 5: Contd Review of Basic Structural Analysis-1
Lec 6: Contd Review of Basic Structural Analysis-1
Lec 7: Contd Review of Basic Structural Analysis-1
Lec 8: Contd Review of Basic Structural Analysis-1
Lec 9: Review of Basic Structural Analysis-2
Lec 10: Contd Review of Basic Structural Analysis-2
Lec 11: Contd Review of Basic Structural Analysis-2
Lec 12: Contd Review of Basic Structural Analysis-2
Lec 13: Contd Review of Basic Structural Analysis-2
Lec 14: Contd Review of Basic Structural Analysis-2
Lec 15: Contd Review of Basic Structural Analysis-2
Lec 16: Contd Review of Basic Structural Analysis-2
Lec 17: Basic Matrix Concepts
Lec 18: Contd Basic Matrix Concepts
Lec 19: Contd Basic Matrix Concepts
Lec 20: Contd Basic Matrix Concepts
Lec 21: Contd Basic Matrix Concepts
Lec 22: Matrix Analysis of Structures with Axial Elements
Lec 23: Contd Matrix Analysis of Structures with Axial Elements
Lec 24: Contd Matrix Analysis of Structures with Axial Elements
Lec 25: Contd Matrix Analysis of Structures with Axial Elements
Lec 26: Contd Matrix Analysis of Structures with Axial Elements
Lec 27: Matrix Analysis of Beams and Grids
Lec 28: Matrix Analysis of Beams and Grids
Lec 29: Contd Matrix Analysis of Beams and Grids
Lec 30: Contd Matrix Analysis of Beams and Grids
Lec 31: Contd Matrix Analysis of Beams and Grids
Lec 32: Contd Matrix Analysis of Beams and Grids
Lec 33: Matrix Analysis of Plane and Space Frames
Lec 34: Matrix Analysis of Plane and Space Frames
Lec 35: Contd to Matrix Analysis of Plane and Space Frames
Lec 36: Contd to Matrix Analysis of Plane and Space Frames
Lec 37: Contd to Matrix Analysis of Plane and Space Frames
Lec 38: Analysis of Elastic Instability and Second-order Effects
Lec 39: Analysis of Elastic Instability and Second-order Effects
Lec 40: Contd Analysis of Elastic Instability and Second-order Effects
Lec 41: Life Beyond Structure and Analysis
A structure refers to a body or system of connected parts used to support a load. Important examples related to Civil Engineering include buildings, bridges, and towers; and in other branches of engineering, ship and aircraft frames, tanks, pressure vessels, mechanical systems, and electrical supporting structures are important. In order to design a structure, one must serve a specified function for public use, the engineer must account for its safety, aesthetics, and serviceability, while taking into consideration economic and environmental constraints. Other branches of engineering work on a wide variety of nonbuilding structures.