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.
Dr. Devdas Menon Professior as a Sept 1998 to present: Faculty at IIT Madras
Dr Devdas Menon's professional interests are primarily in the field of structural engineering. He is presently a Professor in the Department of Civil Engineering at the Indian Institute of Technology, Madras. His professional activities include teaching, research and consultancy. He has a special interest in improving the prevailing engineering practice in India, with regard to various codes of practice, design and construction practices and quality of technical education.
Principal Investigator, "Development of improved codal recommendations for RC stairs", Indian Institute of Technology Madras, 1998-99, Rs 100,000.
Principal Investigator, "Structural design of reactor vault for prototype fast breeder reactor", Indira Gandhi Centre for Atomic Research, Kalpakkam, 2001-02, Rs 990,000.
Principal Investigator, "Development of precast concrete sections and joints for use in tower structures", Concrete Products & Construction Co. Ltd, 2002-04, Rs 210,000.
Principal Investigator, "Behaviour of slender reinforced concrete beams", Dept of Science & Technology, 2008-10, Rs 1,280,400.
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