Mechanical Engineering Design I
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What you'll learn
This course includes
- 10.5 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 134 lessons • 10.5 hours of video
Mechanical Engineering Design I
134 lessons
• 10.5 hours
Mechanical Engineering Design I
134 lessons
• 10.5 hours
- Axial Loading Review for Mech Design in Under 10 Minutes (check links for updated versions!)08:27
- Piston-Rod-Crank Stress - Axial Loading in 90 Seconds!01:30
- Two Section Rod - Axial Loading in 90 Seconds!01:30
- Two-Section Rod Between Walls - Axial Loading in 2 Minutes!01:50
- Torsion Review for Mechanical Design in Under 10 Minutes (Updated Version Below!)08:13
- STATICALLY INDETERMINATE Torsion in 2 Minutes!01:57
- Angle of TWIST of Shaft in 2 Minutes!02:00
- Gears-Shaft System Torsion in 3 Minutes!02:41
- Bending Review for Mechanical Design in Under 10 Minutes! (Updated Version Below!)08:27
- Bending Stress in a T-Shape Cross-Section Beam - Bending Review - Example 102:35
- Bending Stress in an I-Shape Cross-Section Beam - Bending Review - Example 201:54
- Radius of Curvature Equation Derivation01:38
- Deflection of Beams Review for Mechanical Design in Just Over 10 Minutes (updated version below!)11:41
- Beam Deflection Review - Example 1 - Singularity Functions with Variables02:57
- Beam Deflection Review - Example 2 - Singularity Functions with Numbers01:53
- Transverse Shear Review for Mechanical Design in Under 10 Minutes! (updated below!)08:33
- Pi-Shaped Beam - Transverse Shear Review - Example 102:08
- Solid Rod - Transverse Shear Review - Example 201:55
- Hollow Rod - Transverse Shear Review - Example 301:24
- COMPLETE Mohr's Circle Review in Just Over 10 Minutes (UPDATED VERSION below!)12:14
- Mohr's Circle - Given Stress State Element - Example 102:40
- Mohr's Circle - Simple Combined Loading - Example 202:00
- Mohr's Circle - Complex Combined Loading - Example 302:23
- Brittle Failure Theories - Facture Criteria in 10 Minutes (Updated Version Below!)10:15
- Maximum Normal Stress, Brittle Coulomb Mohr, Modified-Mohr Criteria Examples09:15
- Ductile Failure Theories - Yield Criteria in Just Over 10 Minutes (Updated Version Below!)11:20
- Yield Criteria - Example 1 - Stress Element Distortion Energy and Maximum Shear Stress02:02
- Yield Criteria - Example 2 - Stress Element Ductile Coulomb Mohr01:25
- Yield Criteria - Example 3 - 3D Rod Distortion Energy Theory01:59
- DESIGN FACTOR and Uncertainties for Mechanical Design in Under 10 Minutes!07:18
- Design Factor Calculation - Rod Under Pure Bending -Example 101:16
- Design Factor Calculation - Spherical Pressurized Vessel -Example 202:05
- Uncertainty for Design Factor Calculations (TOLERANCE LOOPS) in 10 Minutes!10:31
- Tolerance Analysis - Clearance - Example 101:45
- Tolerance Analysis - Interference - Example 202:44
- Tolerance Analysis - Nominal Size and Tolerance - Example 302:34
- Castigliano's Theorem in Under 10 Minutes [NEW VERSION LINKED BELOW!!!]08:28
- Castigliano's Theorem - Slope of Beam - Example 102:07
- Castigliano's Theorem - 3D L-Shaped Bar Deflection - Example 202:45
- Castigliano's Theorem - T-Shaped Handle 3D - Example 301:50
- FRACTURE TOUGHNESS and Crack Modes in Under 10 Minutes!07:32
- Fracture Toughness - Stress Intensity Modification Factor - Example 102:05
- Fracture Toughness - Crack Size to Crack Before Yield - Example 201:39
- CRACK PROPAGATION and Paris Equation in Under 10 Minutes08:09
- Crack Propagation - 2 Stages of Loading - Example 103:20
- Fatigue (Strength-Number of Cycles) SN-DIAGRAMS in Under 10 Minutes!08:40
- Fatigue SN Diagrams - Number of Cycles to Fatigue Failure - Example 102:53
- Fatigue SN Diagrams - Fatigue Factor of Safety - Example 202:02
- Fatigue SN Diagrams - Failure for Low Cycles - Example 302:02
- Marin Factors for ENDURANCE LIMITS in Just Over 10 Minutes!12:34
- Marin Factors - Evaluating Two Steels for Infinite Life - Example 103:30
- Marin Factors - Size Factor for Rectangular Non-rotating Beam - Example 201:53
- Fatigue STRESS CONCENTRATIONS in Just Over 10 Minutes!11:15
- Fatigue Stress Concentration - Grooved Rod Factor of Safety for Infinite Life - Example 102:47
- Fatigue Stress Concentration - Hole in Bar, Number of Cycles to Failure - Example 202:45
- Fatigue Stress Concentration - Shaft Factor of Safety for N Number of Cycles - Example 302:52
- Fatigue FAILURE CRITERIA in Just Over 10 Minutes!11:35
- Fatigue Failure Criteria - Mean and Alternating von Mises Stress - Example 105:13
- Fatigue Failure Criteria - Bar With Transverse Hole - Example 201:36
- Fatigue Failure Criteria - Von Mises Stress Equation for Given Normal and Shearing Stress01:26
- Shaft Design for INFINITE LIFE and Fatigue Failure in Just Over 10 Minutes!11:59
- [WATCH THE NEW CORRECTED ONE] Shaft Design - Moments in 3D Orthogonal Planes - Example 103:15
- Shaft Design - Angled Gear Force on Shaft - Example 202:41
- Shaft Design - Given Alternating and Mean Values - Example 301:53
- Power Screws - Torque to Force Relationships in Just Over 10 Minutes!10:41
- Bolt (Fasteners) and MEMBER STIFFNESS in Just Over 10 Minutes!11:07
- Stresses at Screw Threads in Just Over 10 Minutes!10:28
- BOLT TENSION and Tension at Non-Permanent Joints in Just Over 10 MINUTES!11:29
- PROOF STRENGTH - Factors of Safety for Tension Joints with Preload in 13 Minutes!13:23
- Springs Fatigue and ZIMMERLI Analysis in Just Over 10 Minutes!11:44
- Mechanical Springs - Stress, Deflection, and Spring Constant in Just Over 10 MINUTES!11:22
- Springs - PRESETTING and Shearing Yield Strength in Just Over 10 Minutes!11:47
- EXTENSION SPRING Design - Stresses and Initial Tension in Just Over 10 Minutes10:55
- Mechanical SPRING DESIGN Strategy and Restrictions in Under 15 Minutes!14:28
- GEARS BASICS - Nomenclature and Main Relations in Just Over 10 Minutes!10:59
- Power Screws - Stepper Motor, Lead Screw, Piston - Example 102:43
- Power Screws - Power Required to Raise the Load - Example 202:09
- Power Screws - Self-Locking Jack? - Example 302:22
- Gear Trains and PLANETARY GEARS in Just Over 10 Minutes!12:17
- Gear Forces and Power Transmission of SPUR GEARS in Just Over 12 Minutes!12:52
- Gear Forces of HELICAL and BEVEL GEARS in Just Over 10 Minutes!10:59
- WORM GEARS - Forces and Speed Relations in Just Under 15 Minutes!14:36
- Screws Stress - Motor, Lead Screw, Piston - Example 102:41
- Screws Stress - Power Required to Raise the Load - Example 202:29
- Screws Stress - Self-Locking Jack? - Example 301:38
- Shaft Design - Moments in 3D Orthogonal Planes - Example 103:15
- LEWIS BENDING STRESS at the Teeth of a Gear in Just Over 12 Minutes!12:32
- Gear PITTING - Surface Contact Stress Fatigue Failure in Just Over 10 Minutes!10:41
- BEARINGS BASICS and Bearing Life for Mechanical Design in 10 Minutes!10:14
- Bearings RELIABILITY and Bearings SELECTION in Just Over 10 Minutes!11:13
- Bearings - COMBINED Radial and Axial LOADS in 10 Minutes!10:05
- Bolt and Member Stiffness - Bolt and Nut Selection - Example 102:28
- Bolt and Member Stiffness - Steel Washers - Example 202:06
- Bolt and Member Stiffness - 4 Members - Example 302:54
- Bolt Tension and Preload - Number of Nut Turns Knowing Proof Load - Example 101:54
- Bolt Tension and Preload - Maximum External Load Given Preload - Example 202:30
- Number of Nut Turns to Bolt Preload Relationship in 2 Minutes01:59
- Factors of Safety for Tension Joints with Preload - Guarding Against Joint Separation - Example 102:56
- Factors of Safety for Tension Joints with Preload - Guarding Against External Load - Example 203:11
- Mechanical Springs - Spring Constant and Maximum Force - Example 102:13
- Mechanical Springs - Free Length Design - Example 201:59
- Mechanical Springs - Factor of Safety to Solid Length - Example 302:41
- Springs Presetting and Shearing Yield Strength - Example 102:51
- Springs Presetting and Shearing Yield Strength - Example 202:43
- Springs Fatigue and Zimmerli Analysis - Example 103:14
- Springs Fatigue and Zimmerli Analysis - Example 203:04
- Compression Spring Design - Impossible Spring Design - Example 302:59
- Compression Spring Design using MATLAB - Example 105:05
- Compression Spring Design using MATLAB - Example 201:51
- Gear Basics and Relations - Mechanical Advantage - Example 302:22
- Gear Basics and Relations - Nomenclature - Example 101:53
- Gear Basics and Relations - Velocity Ratio - Example 202:47
- Extension Springs - Maximum Elongation - Example 103:01
- Gear Trains, Torque, and Mechanical Advantage - Example 102:45
- Gear Trains and Shaft Distance - Example 202:09
- Planetary Gears - Reverted Planetary Train - Example 302:12
- Spur Gears - Force Components - Gear Force on Shaft - Example 103:30
- Spur Gears - Force Components - Force on Bearings - Example 202:39
- Gear Force Components - Example 1 - Helical Gears03:05
- Gear Force Components - Example 2 - Bevel Gears02:31
- Gear Force Components - Example 3 - Worm Gears02:51
- Lewis Bending Stress - Metric - Example 102:05
- Lewis Bending Stress - Face Design - Example 201:53
- Pitting - Fatigue Contact Compressive Stress - Example 101:54
- Pitting - Fatigue Contact Compressive Stress - Example 201:51
- Bearing Load Rating and Life - Example 101:37
- Bearing Load Rating and Life - Example 201:53
- Bearings Reliability - Comparing Maximum Supported Loads - Example 102:34
- Bearings Reliability - Catalogue Load Rating with Reliability - Example 201:34
- Bearings Combined Loading and Equivalent Load - Example 101:54
- Bearings Combined Loading and Equivalent Load - Example 201:38
- Bearings Equivalent Load, Negligible Thrust - Example 302:35
- Relations Between Distributed Load, Shear Force, and Bending Moment in 100 Seconds01:49
- CASTIGLIANO'S THEOREM in Just Over 10 Minutes!11:50
