• No products in the cart.

To understand the basic Aerospace Mechanics of Materials, it is a must for you to understand Stress, Strain and Hooke’s Law; Axial Loaded Members; Torsion; Bending Moment in Beams; Transverse Shear in Beams; Combined Loading; Stress Transformations; Deflection of Beams chiefly using the Generalized Hooke’s Law for Basic Load Carrying Members; Mohr’s Circle. We design this course to facilitate your understanding to solve your problems on Aerospace Mechanics of Materials and to oversee the basic material and geometry dependent analysis of structures.

### Assessment

This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.

### Certification

Edukite courses are free to study. To successfully complete a course you must submit all the assignment of the course as part of the assessment. Upon successful completion of a course, you can choose to make your achievement formal by obtaining your Certificate at a cost of £49.

Having an Official Edukite Certification is a great way to celebrate and share your success. You can:

• Show it to prove your success

Course Credit: TU Delft

### Course Curriculum

 1-1 What is stress? 00:05:00 1-2 Components of Stress 00:05:00 1-3 Sign Convention for Stress 00:02:00 1-5 What is strain? 00:08:00 1-6 Material Properties 00:07:00 1-7 Generalized hookes law 00:06:00 2.2 Axial Force Displacement Relation 00:03:00 2.3 Saint Venant Principle 00:04:00 2.4 Statically indeterminate problems 00:06:00 3-1 Torsion Introduction 00:04:00 3-2 Stress-Strain Distribution Due to Torsion 00:08:00 3-4 Torsion Angle of Twist 00:07:00 3-5 Torsion of Non-circular shafts 00:04:00 3-6 Stress State Simplifications in Thin Walled Shafts 00:05:00 3.7 Bredts formula 00:03:00 4.1 Beam coordinate system 00:06:00 4.2 Stress & Strain in Symmetric Beams Subjected to Bending 00:08:00 4.3 The Flexure Formula 00:07:00 5.1 Transverse Shear in a Beam Subjected to Transverse Loading 00:08:00 5.2 The Shear Formula 00:12:00 5.3 Shear in Thin Walled Beam Profiles 00:07:00 5.4 Shear flow in a thin walled I beam 00:13:00 7.1 Concept of Stress transfomrations 00:11:00 7.2 Mohr’s Circle 00:11:00 Aerospace Mechanics of Materials 00:07:00 Example: Deflection of a Beam using Superposition 00:07:00 Example: Deflection of a Uniform Simply Supported Beam 00:09:00 Example: Spring Supported Cantilever Beam 00:10:00 Exercise Calculating Shear Stress Distribution (Solution) 00:10:00 Failure Criteria 00:19:00 Failure Criteria 1 00:15:00 Macaulay Step Functions 3 00:10:00 Moment-Curvature Relation 00:23:00 Moment-Curvature Relation 2 00:25:00 SA07: Shear & Moment Equations 00:14:00 SA08: Constructing Shear & Moment Diagrams using S/M Equations 00:08:00 SA09: Drawing Shear & Moment Diagrams without the use of Equations 00:14:00 Statically Indeterminate Beams 5 00:30:00 Superposition of Standard Solutions 4 00:15:00 Assessment Submit Your Assignment 00:00:00 Certification 00:00:00

## 4.7

4.7
9 ratings
• 5 stars0
• 4 stars0
• 3 stars0
• 2 stars0
• 1 stars0

No Reviews found for this course.

5 STUDENTS ENROLLED