Engineering Mechanics Classes online by excellent faculty. Engineering mechanics classes online are for mechanical engineering students. You have the flexibility to learn from anywhere, from any part of this world. Our trainers will guide you to focus on what topics which will lead you to secure more marks in end semester examination.
This engineering mechanics course is designed as per the latest course curriculum. You need not worry about syllabus; our trainer will take care of it. You will be familiar with various core concepts of engineering mechanics.
About the Course:
Learn how to apply mechanics to solve problems that involve common engineering elements. You can prepare engineering mechanics notes from lecturers. Our trainers will teach you right from basics to advanced level in this engineering mechanics classes online.
- To learn about resolving forces
- To understand about moments for a given force system.
- A Clear understanding of types of friction for moving bodies.
- To analyze problems related to friction.
- To find Centroid.
- To determine the 2nd moment of area.
- Learn basics of mechanics, the center of gravity, area moments of gravity, mass moment of inertia, kinetics, virtual work, Mechanical vibrations Etc concepts.
No pre-requisites for this Engineering mechanics course.
Our trainers will guide you how to prepare and plan for your upcoming End/supplementary Engineering mechanics examination and what topics you must focus more to secure more marks.
- Lectures 0
- Quizzes 0
- Duration 30 hours
- Skill level All level
- Language English
- Students 14567
- Certificate No
- Assessments Self
Engineering Mechanics Subject Syllabus, Course content:
1. Introduction to Mechanics
Basic Concepts, system of Forces Coplanar Concurrent Forces, Components in Space Resultant, Moment of Forces and its Application, Couples and Resultant of Force Systems.
Equilibrium of system of Forces: Free body diagrams, Equations of Equilibrium of Coplanar Systems and Spatial Systems.
Types of friction, Limiting friction, Laws of Friction, static and Dynamic Frictions, Motion of Bodies, Wedge Screw, Screw, jack and differential screw and jack.
3. Centroid and Center of Gravity
Introduction, Centroids of lines, Centroids of area, Centroids of Composite figures, Theorem of Pappus, Centre of Gravity of Bodies, Centroids of Volumes, Center of gravity of composite bodies.
Area moments of Inertia: Introduction, definition of Moment of Inertia, Polar Moment of Inertia, Radius of gyration, transfer theorem for moment of inertia, moments of inertia by integration, moments of Inertia of Composite Figures, Product of Inertia and transfer formula for Product of Inertia.
4. Mass Moment of Inertia
Introduction, moment of Inertia of masses, Radius of gyration, Transfer Formula for mass moments of Inertia, mass moments of inertia by integration, mass moment of inertia of composite bodies.
Virtual Work: Theory of virtual work, Application.
Kinetics of a particle, D'Alemberts principle, Motion in a curved path, work, energy and power, Principle of conservation of energy, Kinetics of rigid body in translation, rotation, work done, Principle of work, energy, Impulse, momentum.
Mechanical Vibrations: Definitions, Concepts, Simple Harmonic motion, free vibrations, Simple and compound pendulums.