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Quick Facts

Medium Of InstructionsMode Of LearningMode Of Delivery
EnglishSelf StudyVideo and Text Based

Courses and Certificate Fees

Fees InformationsCertificate AvailabilityCertificate Providing Authority
INR 2436yesCoursera

Machine Design Part I fee structure is - 

HeadAmount in INR
Certificate FeesRs. 2436

The Syllabus

Videos
  • Module 1: Course Overview
  • Module 2: How to Succeed in this Course
  • Module 3: Strength
  • Module 4: Modulus of Elasticity - Introduction
  • Module 5: Modulus of Elastricity - Applications
  • Module 6: Ashby Plots
  • Module 7: Material Selection in Hip Implant
  • Module 8: Common Metals in Design
  • Module 9: Metal Designations and Processing
  • Module 10: Temperature Effects and Creep
  • Module 11: CTE mismatch
Readings
  • Syllabus
  • Consent Form
  • Total Hip Replacement Surgical Process
  • Get More from Georgia Tech
Practice Exercises
  • Complete prior to Module 4 - Modulus of Elasticity
  • Material Properties in Design

Videos
  • Module 12: Review of Stress, Strength, and Factor of Safety
  • Module 13: Factor of Safety Example
  • Module 14: Axial and Torsional Stress Review
  • Module 15: Axial, and Torsional Stress Example
  • Module 16: Bending Stress Review
  • Module 17: Bending Stress Example
  • Module 18: Transverse Shear Review
  • Module 19: Transverse Shear Example
Readings
  • Tip for Units 2 and 3: Equation Sheet
  • Example Problem Module 12 : Factor of Safety
  • Solution Module 13: Factor of Safety
  • Example Problem Module 14: Axial and Torsional Stress
  • Solution Module 15: Axial and Torsional Stress
  • Example Problem Module 16: Bending Stress
  • Solution Module 17: Bending Stress
  • Example Problem Module 18: Transverse Shear
  • Solution Module 19: Tranverse Shear
  • Earn a Georgia Tech Certificate/Badge/CEUs
Practice Exercise

Pre-Quiz: Static Loading

Videos
  • Module 20: Ductile to Brittle Transition Temperature
  • Module 21: Stress Concentration Factors
  • Module 22: Static Failure Theories
  • Module 23: Distortion Energy Theory (von Mises Theory)
  • Module 24: Simple Example Distortion Energy Theory
  • Module 25: Complex Example Distortion Energy Theory
  • Module 26: Case Study - Static Load Analysis
  • Module 27: Brittle Coulomb Mohr Theory
  • Module 28: Brittle Coulomb Mohr Theory Example
Readings
  • Worksheet 2: Stress Concentration Factor Practice Problems
  • Worksheet 2 Solution
  • Example Problem Module 24
  • Solution Module 25: Complex Example Distortion Energy Theory
  • Worksheet 3: Practice Problems: Distortion Energy Theory
  • Worksheet 3 Solution
  • Example Problem Module 27 Coulomb Mohr Theory
  • Solution Module 28: Brittle Coulomb Mohr Theory
  • Worksheet 4: Practice Problems: Coulomb Mohr Theory
  • Worksheet 4 Solution
  • Tips for preparing for Quiz 2
  • Quiz 2 Solution
Practice Exercise

Static Failure

Videos
  • Module 29: Introduction to Fatigue Failure
  • Module 30: Fatigue and the SN Curve
  • Module 31: Approximating the SN Curve
  • Module 32: Estimating the Endurance Limit
  • Module 33: Estimating the Endurance Limit - Example Problem
  • Module 34: Fatigue Stress Concentration Factors Part I
  • Module 35: Fatigue Stress Concentration Factors Part II
  • Module 36: Fatigue Fully Reversed Loading Example
Readings
  • Worksheet 5: SN Curve Practice Problem
  • Worksheet 5 Solution
  • Example Problem Module 32: Estimating Endurance Limit
  • Solution Module 33: Estimating the Endurance Limit
  • Worksheet 6: Endurance Limit Practice Problem
  • Worksheet 6 Solution
  • Worksheet 7: Fully Reversed Loading in Fatigue Practice Problems
  • Worksheet 7 Solution
  • Tips for preparing for Quiz 3
  • Quiz 3 Solution
Practice Exercise
  • Fully Reversed Loading in Fatigue

Videos
  • Module 37: Fatigue Case Study - Aloha Airlines Flight 243 Failure
  • Module 38: Fatigue Fluctuating Stress
  • Module 39: Fatigue Goodman Diagram
  • Module 40: Fatigue Goodman Diagram Example
  • Module 41: Fatigue Goodman Diagram Example (Life)
  • Module 42: Randomly Varying Stresses and Miner's Rule
  • Module 43: Randomly Varying Stresses and Miner's Rule Example 1
  • Module 44: Randomly Varying Stresses and Miner's Rule Example 2
Readings
  • Example Problem Module 39
  • Solution Module 40
  • Worksheet 8: Fluctuating Loading in Fatigue
  • Worksheet 8 Solution
  • Example Problem Module 42
  • Solution: Example Problem Module 43
  • Worksheet 9: Miner's Rule
  • Worksheet 9 Solution
  • Quiz 4 Solution
  • Quiz 5 Solution
Assignments
  • Fluctuating Fatigue and Miner’s Rule
  • Machine Design Part 1: Comprehensive Exam

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