Advanced Diploma In Mechanical Engineering

Posted By: ELK1nG

Advanced Diploma In Mechanical Engineering
Published 8/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 4.85 GB | Duration: 20h 19m

A complete Mechanical Engineering Program

What you'll learn

Mechanical Engineering Science

Problem Solving

Analytical Skills

Engineering Mechanics

Thermodynamics

Machine Elements

Hydraulics

Automotive technology

Electrical Engineering Principles

Plant Engineering

Requirements

First year college/university Mathematics is preferred

Description

The Mechanical Engineering Advanced Diploma program is designed not only to teach the background theory of engineering, but also the application of these principles. Mechanical Engineering is one of the oldest and broadest of the engineering branches and considered one of the most prestigious major. Students will study in this program engineering mechanics, Thermodynamics, Fluid Mechanics, Machine element design. Mechanics of Materials, Automotive Technology, Plant Design and the principles of Electrical engineering and many more courses will be add to the this program in the future. Technically, mechanical engineering is the application of the principles and problem-solving techniques of engineering from design to manufacturing to the marketplace for any object. Mechanical engineers analyze their work using the principles of motion, energy, and force ensuring that designs function safely, efficiently, and reliably, all at a competitive cost.So this Comprehensive program will give you a solid background in the field of Mechanical Engineering, for career advancement. Also you will develop a very important critical skills such as Problem solving, Analysis and logic thinking skills. Understand the core principles of mechanical engineering.So this course is directed towardsAny one interested in engineering and science, And People who works in technological and applied sciences fields. Such as Energy, Manufacturing, Automotive industry, Structure, engineering sales and many more.· I wish that every on of you enjoy this program.· You have lifetime access to the course so you can take as long or short as you wish to go through the material. You can replay the videos at anytime using the course as an ongoing reference. You also have a 30 day money back guarantee.BE SURE TO ENROLL NOW!

Overview

Section 1: Introduction

Lecture 1 Introduction

Section 2: Engineering Mechanics (Statics)

Lecture 2 Introduction to Statics

Lecture 3 Problems

Lecture 4 Cartesian Vectors

Lecture 5 Dot (scalar) product

Lecture 6 Moment of a Force about a Point

Lecture 7 Moment of a Force about an Axis

Lecture 8 Couples

Lecture 9 Resultants of Force Systems

Lecture 10 Resultants of Coplanar Force Systems

Lecture 11 Coplanar Equilibrium Analysis

Lecture 12 Analysis of Composite Bodies

Lecture 13 Trusses

Lecture 14 Beams

Lecture 15 Analysis of Internal Forces

Lecture 16 Friction

Lecture 17 Centroid-1

Lecture 18 Centroid-2

Lecture 19 Moment of Inertia

Section 3: Mechanics of Materials

Lecture 20 Introduction

Lecture 21 Bar Behavior and Hooke's Law

Lecture 22 Poisson Effects, safety factor

Lecture 23 Nonuniform Bars (1)

Lecture 24 Nonuniform Bars (2)

Lecture 25 Statically Indeterminate Bars

Lecture 26 Change of Temperature Effects

Lecture 27 Shear Stress (1)

Lecture 28 Shear Stress (2)

Lecture 29 Shear strain and Hooke's law in shear

Lecture 30 Mechanical Behavior of a Shaft (1)

Lecture 31 Mechanical Behavior of a Shaft (2)

Lecture 32 Shear Stress in Shafts, Shafts vs Bars

Lecture 33 Non uniform Shafts (1)

Lecture 34 Non uniform shafts (2)

Lecture 35 Pure shear, and shear modulus of elasticity

Lecture 36 Examples

Lecture 37 Beams-Shear Force and Bending Moment (1)

Lecture 38 Beams-Shear Force and Bending Moment (2)

Lecture 39 Shear Force and Bending Moment Diagrams (1)

Lecture 40 Shear Force and Bending Moment Diagrams (2)

Lecture 41 Beams-Deflection and Curvature (1)

Lecture 42 Beam -Bending Normal Stress (1)

Lecture 43 Shear Stresses in Beams

Lecture 44 Plane Stress and Stress Transformation (1)

Section 4: Dynamics

Lecture 45 Dynamics (1)

Lecture 46 Dynamics (2)

Lecture 47 Dynamics (3)

Lecture 48 Dynamics (4)

Lecture 49 Dynamics (5)

Lecture 50 Dynamics (6)

Lecture 51 Dynamics (7)

Lecture 52 Dynamics (8)

Lecture 53 Dynamics (9)

Lecture 54 Dynamics (10)

Section 5: Machine Elements

Lecture 55 Springs (1)

Lecture 56 Shear stress in Helical Springs

Lecture 57 Types of Cams

Lecture 58 Bushing and Roller Bearing

Lecture 59 Rolling Contact Bearings

Lecture 60 Power Transmission Devices

Lecture 61 Open and Cross Belt Drive

Lecture 62 Chain Drive

Lecture 63 Gear Drive

Lecture 64 Gear Trains

Lecture 65 Clutches

Lecture 66 Brakes

Section 6: Fluid Mechanics

Lecture 67 Introduction

Lecture 68 Properties of Fluid

Lecture 69 Surface Tension

Lecture 70 Capillarity

Lecture 71 Pascal's Law

Lecture 72 Hydrostatic Law

Lecture 73 Hydrostatic Forces on Submerged Surfaces

Lecture 74 Buoyancy and Floatation

Lecture 75 Metacenter

Lecture 76 Atmospheric pressure

Lecture 77 Single and Double Column Manometer

Lecture 78 Liquids in Relative Equilibrium

Lecture 79 Liquid Container Subjected to Constant Vertical Acceleration

Lecture 80 Liquid Container Subjected to Acceleration along the Inclined Plane

Lecture 81 Liquid Container Subjected to Constant Rotation

Lecture 82 Fluid Kinematics

Lecture 83 Fundamentals of Flow

Lecture 84 Continuity Equation

Lecture 85 Reynolds

Lecture 86 Rotation and Spinning of the Liquid

Lecture 87 Circulation

Lecture 88 Fluid Dynamics

Lecture 89 Euler's Equation of Motion

Lecture 90 Bernoulli's Equation

Lecture 91 Application of Bernoulli's Equation (1)

Lecture 92 Application of Bernoulli's Equation (2)

Lecture 93 Application of Bernoulli's Equation (3)

Lecture 94 Free Liquid Jet

Lecture 95 Free Liquid Jet

Lecture 96 Momentum Equation

Lecture 97 Flow Through Orifices and Mouthpieces

Lecture 98 Discharge Through large Rectangular Submerged Orifice

Lecture 99 Time of Emptying Tank through an Orifice

Lecture 100 Laminar Flow (Viscous Flow)

Lecture 101 Stokes Equations of Motion

Lecture 102 Laminar Flow in Circular Pipes (HAGEN-POISEUILLE THEORY)

Lecture 103 Turbulent Flow in Pipes

Lecture 104 Flow Through Pipes

Section 7: Hydraulic Machines

Lecture 105 Introduction to Hydraulic Turbines

Lecture 106 Pelton Turbine (1)

Lecture 107 Pelton Turbine (2)

Lecture 108 Pelton Turbine (3)

Lecture 109 Francis Turbine (1)

Lecture 110 Francis Turbine (2)

Lecture 111 Propeller and Kaplan Turbines

Lecture 112 Classification of Pumps

Lecture 113 Centrifugal Pump

Lecture 114 Reciprocating Pumps

Lecture 115 Vane Pump, Lobe Pump, Gear Pump, Screw Pumps, Axial Piston Pump

Section 8: Engineering Thermodynamics

Lecture 116 Introduction to Thermodynamics

Lecture 117 Thermodynamic Equilibrium and Zeroth Law

Lecture 118 Thermodynamics Properties (1)

Lecture 119 Thermodynamics properties (2)

Lecture 120 First Law of Thermodynamics

Lecture 121 Energy of an Isolated System

Lecture 122 Specific Heats

Lecture 123 Joule's Law

Lecture 124 Relationship between Two Specific Heats

Lecture 125 Enthalpy

Lecture 126 Application for 1st law for non flow or closed system

Lecture 127 Application of First low of thermodynamics

Lecture 128 Engineering applications of steady flow energy

Lecture 129 The Second Law of Thermodynamics

Section 9: Power Plant Engineering

Lecture 130 Power Plant Engineering

Lecture 131 Steam Generators Boilers

Lecture 132 Boiler Mountings

Lecture 133 Boiler Accessories

Section 10: Automotive Technology

Lecture 134 The Basic Engine

Lecture 135 Automotive Systems

Lecture 136 Automotive Systems 2

Section 11: Electrical Engineering Principles

Lecture 137 Introduction

Lecture 138 Kirchhoff’s Laws

Lecture 139 Mesh Analysis

Lecture 140 Bridge measurements

Lecture 141 Electromagnetic systems

Lecture 142 Electromagnetic systems (2)

Lecture 143 Electromagnetic Induction

Lecture 144 Magnetic circuits

Lecture 145 Capacitance (1)

Lecture 146 Capacitance (2)

Lecture 147 Alternating current circuits

Lecture 148 Resistance connected to an alternating voltage supply

Lecture 149 Root mean square (rms) voltage and current

Lecture 150 Inductance connected to an alternating voltage supply

Lecture 151 j operator

Lecture 152 Capacitance connected to an alternating voltage supply

Lecture 153 Resistance and inductance in series with an alternating voltage supply

Lecture 154 Alternating current bridges

Lecture 155 Three-phase circuits

Lecture 156 Junction diode

Lecture 157 Rectifying alternating currents

Lecture 158 Thyristor

Lecture 159 Full-wave rectifiers

Lecture 160 Electronics

Any one interested in Engineering and Science