Mechanical Engineering Crash Course: 12 Courses In 1

Learn Mechanical Engineering concepts like mechanics, fluid mechanics, thermodynamics, machine design and more.

What you'll learn

Basics of Scientific Method & Engineering

Introduction to Mechanical Engineering

Core Concepts of Engineering Mechanics including Statics & Dynamics

Mechanics of Materials - Concepts of Stress, Strain and Material Behaviour under Force

Materials Engineering - Concepts of Materials & its Types

Fluid Mechanics - Fluid behaviour and its properties

Thermodynamics - How interconversion of thermal and mechanical energy is carried out

Thermodynamic Cycles - How Engines and Refrigerators work

Machine Element Design - How various common machine elements are designed

Heat Transfer - Modes via through which heat transfer occurs and how it is modelled

Manufacturing Processes - Introduction to most commonly used manufacturing processes

Computer Aided Design - Introduction to CAD using SolidWorks

Engineering Simulations - Introduction to FEA and CFD using ANSYS

Requirements

Basic High School level Physics is recommended. But not essential.

Just time and will to learn.

Access to Solidworks Version 2018 or higher. (For CAD Section Only)

Access to ANSYS Version 2018 or higher. (For Engineering Simulations Section Only)

Description

Are you ready to dive into the exciting world of Mechanical Engineering?This Crash Course in Mechanical Engineering is designed to equip you with the essential knowledge and skills to excel in this dynamic field. Whether you're a student, a working professional, or an enthusiast, this course offers a comprehensive introduction to the core principles of Mechanical Engineering.This course covers key topics such as thermodynamics, fluid mechanics, robotics, material science, and mechanical design. Through expert-led video lectures, you'll gain a deep understanding of how Mechanical Engineering drives innovation in various industries in the world.This course will serve you either as gateway to Mechanical Engineering if you are new to the field, or it will serve you as a refresher course if you are seasoned professional mechanical engineer.What You’ll Learn:Fundamentals of Mechanical EngineeringEngineering MechanicsFluid MechanicsSolid MechanicsMachine Element DesignComputer Aided DesignFinite Element AnalysisComputational Fluid DynamicsManufacturing ProcessesAnd Much More…Why Choose This Course?Flexible Learning: Study at your own pace with lifetime access to course materials.One stop Course for everything Mechanical Engineering: Get quick information about various subtopics of Mechanical Engineering in one courseCertificate of Completion: Earn a certificate to showcase your expertise and boost your career prospects.Take the first step toward becoming a Mechanical Engineering. Whether you're designing the next generation of electric vehicles, optimizing renewable energy systems, or creating cutting-edge robotics, this course will provide the foundation you need to succeed.Mechanical Engineering is the backbone of modern technology, and this course is your gateway to mastering it. Don’t wait – start your journey today and unlock endless opportunities in this ever-evolving field!Enrol now and transform your future with Mechanical Engineering!

Overview

Section 1: Introduction

Lecture 1 Message from the Instructor

Section 2: Introduction to Engineering

Lecture 2 Science & Engineering

Lecture 3 Scientific Method

Lecture 4 Engineering Disciplines

Section 3: Mechanical Engineering

Lecture 5 Mechanical Engineering

Lecture 6 Mechanical Engineering Skillset

Section 4: Engineering Mechanics

Lecture 7 Mechanics & its Types

Lecture 8 Physical Quantities

Lecture 9 Equilibrium & Moments

Lecture 10 Free Body Diagrams

Lecture 11 Friction

Lecture 12 Newton's Laws of Motion

Lecture 13 Law of Gravitation

Lecture 14 Kinematics

Lecture 15 Kinetics

Lecture 16 Projectile Motion

Lecture 17 Work & Energy

Lecture 18 Momentum & Collisions

Section 5: Materials Engineering

Lecture 19 Materials Science

Lecture 20 Mechanical Properties

Lecture 21 Types of Materials

Lecture 22 Metals

Lecture 23 Polymers

Lecture 24 Ceramics

Lecture 25 Composites

Section 6: Mechanics of Materials

Lecture 26 Stress & its Types

Lecture 27 Cartesian Stress Components

Lecture 28 Poisson Ratio & Hooke's Law

Lecture 29 Stress Transformation & Mohr Circle

Lecture 30 Torsion

Lecture 31 Static Failure

Lecture 32 Fatigue Failure

Lecture 33 Fluctuating Stresses

Section 7: Fluid Mechanics

Lecture 34 Introduction to Fluid Mechanics

Lecture 35 Properties of Fluids

Lecture 36 Fluid Statics: Pascal's Law & Buoyancy

Lecture 37 Fluid Dynamics I: Continuity Equation

Lecture 38 Fluid Dynamics II: Bernoulli Equation

Lecture 39 Laminar & Turbulent Flow

Lecture 40 Characterizing Fluid Flow

Lecture 41 Internal Flow

Lecture 42 Open Channel Flow

Lecture 43 Turbines & Pumps

Section 8: Thermodynamics

Lecture 44 Thermodynamics

Lecture 45 Thermodynamics Terms

Lecture 46 Pure Substance & Phase Diagrams

Lecture 47 Gas Laws

Lecture 48 First Law of Thermodynamics

Lecture 49 Second Law of Thermodynamics

Lecture 50 Carnot Engine

Lecture 51 Entropy

Lecture 52 Thermodynamic Tables

Section 9: Thermodynamic Cycles

Lecture 53 Thermodynamic Cycles

Lecture 54 Rankine Cycle

Lecture 55 Brayton Cycle

Lecture 56 Vapor Compression Cycle

Section 10: Heat Transfer

Lecture 57 Heat Transfer & its Modes

Lecture 58 Conduction

Lecture 59 Convection

Lecture 60 Radiation

Lecture 61 Thermal Resistance

Lecture 62 Heat Exchangers

Section 11: Design of Machine Elements

Lecture 63 Introduction to Mechanical Design

Lecture 64 Design Factor

Lecture 65 Machine Elements

Lecture 66 Mechanical Shafts

Lecture 67 Non-Permanent Joints (Fasteners)

Lecture 68 Permanent Joints

Lecture 69 Bearings

Lecture 70 Gears I - Introduction

Lecture 71 Gears II - Force Analysis

Lecture 72 Belt Drives

Section 12: Manufacturing Processes

Lecture 73 Basics of Manufacturing

Lecture 74 Primary vs Secondary Manufacturing Processes

Lecture 75 Primary Manufacturing Processes

Lecture 76 Secondary Manufacturing Processes

Lecture 77 Computer Aided Manufacturing (CAM)

Section 13: CAD using SolidWorks

Lecture 78 CAD vs CAM vs CAE

Lecture 79 Introduction to SolidWorks

Lecture 80 Sketching in SolidWorks

Lecture 81 3D Modelling in SolidWorks

Lecture 82 CAD Practice A- Table Parts

Lecture 83 CAD Practice B- Table Assembly

Lecture 84 Creating Drawings

Section 14: Engineering Simulations (ANSYS)

Lecture 85 Finite Element Analysis

Lecture 86 Theory of FEA

Lecture 87 FEA Procedure

Lecture 88 Static Structural Analysis

Lecture 89 Steady State Thermal Analysis

Lecture 90 Computational Fluid Dynamics

Lecture 91 Laminar Flow in a Pipe I

Lecture 92 Laminar Flow in a Pipe II

Lecture 93 Laminar Flow in a Pipe III

Mechanical Engineers who want a refresher crash course,Mechanical Engineering Students,Anyone who wants to learn Mechanical Engineering