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Introduction to Engineering Mechanics

Vector Statics: What does statics deal with?

Vector Statics: All about forces

Vector Statics: What is a vector?

Vector Statics: Vector Operations

Vector Statics: What is a particle?

Vector Statics: 3D Particle Equilibrium - Introduction

Vector Statics: 3D Particle Equilibrium - Finding components using direction cosines

Vector Statics: 3D Particle Equilibrium - Finding components using two angles

Vector Statics: 3D Particle Equilibrium - Using unit vectors

Vector Statics: Particle equilibrium

Vector Statics: Center of Gravity

Vector Statics: Centroids

Vector Statics: 2D Rigid Body Equilibrium

Vector Statics: Support Reactions

Vector Statics: Moments

Vector Statics: Couples

Vector Statics: Frames

Vector Statics: Introduction to Trusses

Vector Statics: Simple Trusses

Vector Statics: Method of Sections

Vector Statics: Method of joints

Vector Statics: Zero force members

Vector Statics: Distributed Forces

Vector Statics: Introduction to Machines

Vector Statics: Machines

Vector Statics: Dry Friction

Strength of Materials: Introduction - Units of stress

Strength of Materials: Bending

Strength of Materials: Beams

Strength of Materials: Analysis of shearing stress

Vector Dynamics: Introduction to Engineering Mechanics

Vector Dynamics: Introduction to Free Body Diagrams

Vector Dynamics: Introduction to Particle Kinematics

Vector Dynamics: Introduction to Relative Motion

Vector Dynamics: Introduction to Curvilinear Motion

Vector Dynamics: Introduction to Projectile Motion

Vector Dynamics: Introduction to Particle Kinetics

Vector Dynamics: Introduction to Linear Impulse & Momentum

Vector Dynamics: Introduction to Work-Energy Principle

Description:

Dive into a comprehensive 2.5-hour lecture series on Engineering Mechanics, covering Statics, Dynamics, and Materials. Explore fundamental concepts such as vector statics, particle equilibrium, rigid body equilibrium, trusses, distributed forces, and machines. Delve into strength of materials, including stress analysis and beam mechanics. Progress to vector dynamics, examining particle kinematics, relative motion, curvilinear motion, and projectile motion. Conclude with an introduction to particle kinetics, linear impulse and momentum, and the work-energy principle. Gain a solid foundation in engineering mechanics principles through this in-depth exploration of key topics.

Engineering Mechanics - Statics, Dynamics, Materials

Cal Poly Pomona

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