PARTNER COURSE
Solid Mechanics (Video Lectures for GATE) for Civil Engineering (CE)Ekeeda · Last updated on Dec 22, 2024 |
PARTNER COURSE
Solid Mechanics (Video Lectures for GATE) for Civil Engineering (CE)Ekeeda · Last updated on Dec 22, 2024 |
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Civil Engineering (CE) Syllabus:
The Civil Engineering (CE) syllabus includes Solid Mechanics, which is the branch of mechanics that deals with the behavior of solid materials subjected to external forces. It is one of the most important subjects in Civil Engineering, as it forms the basis for the design of all types of structures and machines.
Students will learn about the various theories of failure that are used for designing structures and machines. They will understand how to calculate the load-carrying capacity of different materials and how to choose the right material for a given application.
Students will learn about the different types of stresses and strains that are experienced by solid materials. They will understand how to calculate the stress and strain in different situations and how to choose the right material for a given application.
Students will learn about the different elastic constants that are used to describe the behavior of solid materials under load. They will understand how to calculate the Poisson's ratio and how to use it to predict the deformation of a material under load.
Students will learn about the concept of principal stresses and how they are used to calculate the maximum stress that a material can withstand before failure. They will understand how to calculate the principal stresses in different situations and how to use them to design structures and machines.
Students will learn about the concepts of shear force and bending moment and how they are used to design beams and other structures. They will understand how to calculate shear force and bending moment in different situations and how to use them to design structures and machines.
Students will learn about the concept of torsion and how it affects the behavior of solid materials. They will understand how to calculate the torsional stress and how to use it to design structures and machines.
Students will learn about the concept of bending stresses and how they are used to design beams and other structures. They will understand how to calculate bending stress in different situations and how to use it to design structures and machines.
Students will learn about the concept of shear stress and how it is used to design beams and other structures. They will understand how to calculate shear stress in different situations and how to use it to design structures and machines.
Students will learn about the behavior of columns under load and how to design them to withstand the load. They will understand how to calculate the load-carrying capacity of different types of columns and how to choose the right type of column for a given application.
Students will learn about the behavior of thin cylinders and spheres under load and how to design them to withstand the load. They will understand how to calculate the load-carrying capacity of different types of cylinders and spheres and how to choose the right type for a given application.
Students will learn about the concept of deflection and how it is used to design beams and other structures. They will understand how to calculate the deflection of a beam in different situations and how to use it to design structures and machines.
Students will learn about the concept of strain energy and how it is used to design structures and machines. They will understand how to calculate the strain energy in different situations and how to use it to design structures and machines.
Students will learn about the different types of material testing that are used to determine the mechanical properties of solid materials. They will understand how to perform different types of material testing and how to interpret the results.
Students will practice solving previous year GATE questions related to strength of materials. This will help them understand the types of questions that are asked in the exam and how to solve them.
This course is helpful for the following exams: Civil Engineering (CE)
1. What is Solid Mechanics? |
2. What are the applications of Solid Mechanics in Civil Engineering? |
3. What are the basic concepts of Solid Mechanics? |
4. What are the types of stresses in Solid Mechanics? |
5. How is Solid Mechanics related to other branches of Mechanics? |
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