Last updated 8/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.02 GB | Duration: 6h 1m
Learn classical mechanics, classical physics, applied math, forces, gravity, and equilibrium related problems
Learn classical mechanics, classical physics, applied math, forces, gravity, and equilibrium related problems
What you'll learn
Composition of Forces
Equilibrium Problem
Center of Gravity
Simple Harmonic Motion
Classical Mechanics Overview
Requirements
Must have interest in engineering mechanics
Description
How to have an introduction to mechanicsPhysics requires mathematics at every step. In this course Engineering Mechanics: Statics and Dynamics, we will cover all the basics and advanced topics of physics. This course Engineering Mechanics: Statics and Dynamics are much mathematical and less theoretical. In this course, you will learn many mathematical terms of engineering mechanics. However, Engineering Mechanics: Statics and Dynamics is a BS and master level engineering course. The course has 5 sections approximately and every section starts from a new chapter. However, above intermediate level students can take this course.The lectures are typically long video series and have been edited to make them fantastic. You will learn many things in this course like..........Composition of ForcesEquilibrium ProblemCenter of GravitySimple Harmonic MotionClassical Mechanics OverviewIn the first section, we will define the composition of forces and we will explain that how to resolve the forces by using parallelogram law. We will find the directions of forces and the resultant of forces. We will also discuss the different cases of forces and their properties. Many technical examples related to engineering will be solved in this section as wellIn the second section, we will discuss the equilibrium problem and its solution in engineering mechanics. We will balance the systems of forces and apply them to engineering categories. We will walk through many examples and exercises that will explain the equilibrium problems.Similarly, in the third section, we will discuss the center of gravity and we will find the technique to find the center of gravity of different objects. There are many ways to find the center of gravity of different regular and irregular objects, we shall find the ways how to find the center of gravity of complex objects as well.The simple harmonic motion is another topic that is considered the heart of engineering mechanics. In this section, we will find the mathematical relation between two variables and apply them in engineering mechanics.In the last section, we will look at the overview of classical mechanics and briefly discuss the application of classical mechanics in today's engineering mechanics.However, I give the free hand to my students that they can discuss and everything about this course in the question-answer. I will always give them a quick response. Please stay healthy
Overview
Section 1: Introduction
Lecture 1 Resultant of Two Forces
Section 2: Composition of Forces
Lecture 2 Special Cases for Resultant of Two Forces
Lecture 3 Example 1
Lecture 4 Resolved Parts of Forces and Examples
Lecture 5 Examples and Exercises
Section 3: Equilibrium Problem
Lecture 6 Resultant of Number of Co planer Forces
Lecture 7 Resultant of Two Parallel Forces
Lecture 8 Examples and Exercises
Section 4: Kinematics
Lecture 9 Derivation of Equation of Motion
Lecture 10 Kinetics and Types of Motion
Lecture 11 Mathematical Formulation SHM
Section 5: Center of Gravity
Lecture 12 Center of Gravity of Different Objects
Lecture 13 A Brief Introductory Lecture on Center of Gravity
Engineering Students
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