Construction engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: c. Construction engineering
Electricity is brought to a building by underground cables. When the electricity load is small and total current drawn is less than 30 amps, only single phase and a neutral are sufficient.
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: c. Construction engineering
1. Arches, 2. Doors, windows and ventilators, 3. Stairs and lifts, 4. Temporary works for construction, 5. Painting, 6. Building acoustics
Overview of civil engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: c. Construction engineering
Construction technology is a related field that deals more with the practical aspects of projects.
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
Complex structures have complex geometry and are subjected to a combination of loads, viz., axial, bending, shear and twisting loads. Few typical examples for complex structures
Solved Problems - Structural engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
Basic Civil & Mechanical Engineering : UNIT I : Structural engineering : Illustrative examples – II
Structural engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
There are three Elastic Constants of materials, viz., Young's Modulus, Modulus of Rigidity and Bulk Modulus of Elasticity.
Structural engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
Ductile Materials: Materials like Mild Steel, Copper, etc., can be drawn into thin wires. These are therefore called as Ductile Materials.
Solved Problems - Stress and strain | Structural engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
Basic Civil & Mechanical Engineering : UNIT I : Structural engineering : ILLUSTRATIVE EXAMPLES - I
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
The basic types of stress and strain are given below: 1. Tensile Stress and Tensile Strain 2. Compressive Stress and Compressive Strain 3. Shear Stress and Shear Strain 4. Bending Stress and Bending Strain
Definition, Formula
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
Intensity of Stress: The internal resistance or internal force developed per unit area of the cross section of the material is known as Intensity of Stress.
Overview of civil engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
Application of the Laws of Mechanics to the actual problems is termed as Engineering Mechanics or Applied Mechanics.
Overview of civil engineering
Subject and UNIT: Basic Civil & Mechanical Engineering: UNIT I: b. Structural engineering
1. INTRODUCTORY CONCEPTS, 2. BASIC ISSUES IN THE DESIGN AND ANALYSIS OF STRUCTURES, 3. MECHANICS