Courses:

Structural Mechanics (13.10J) >> Content Detail



Calendar / Schedule



Calendar


Tentative Lecture / Recitation

DAY #TOPICSASSIGNMENTS
1Lecture: Introduction, Forces, Free Body Diagrams, Stresses [NMP] (1-45)Problem Set 1 Out
2Recitation: Introduction to MATLAB®  [TA]
3Lecture: 3D Stress [NMP] (28-31, 567-598)
4Lecture: Concept of Strain [NMP] (47-80, 599-612)Problem Set 2 Out
Problem Set 1 Due
5Recitation: Mechanical Properties of Solids [TA]
6Lecture: 1-D Problems, Transformation Equations for Strain [NMP] (47-80, 111-166, 599-612)
7Lecture: Multidimensional stress-strain relations [NMP] (167-179, 195-211)Problem Set 3 Out
Problem Set 2 Due
8Recitation: Review of 3D Stress/Strain, Exercises [TA]
9Lecture: Strain Energy, Plane Stress [NMP] (179-185, 213-237)Problem Set 4 Out
Problem Set 3 Due
10Recitation: Quiz Review [TA]
11Lecture: Plane Stresses, Introduction to Beams [NMP]
12Lecture: Plain Strain [NMP] (239-260)Problem Set 5 Out
Problem Set 4 Due
13Recitation: Exercises, Quiz 1 Review [TA]
14Lecture: Mechanics of Beams [NMP] (283-359)
15Quiz 1 (2 hours)
16Lecture: Deflections of Beams [NMP] (435-490)Problem Set 6 Out
Problem Set 5 Due
17Recitation: Exercises [TA]
18Lecture: Deflections of Beams Continued (435-490), Advanced Mechanics of Symmetric Beams [NMP] (360-370)Problem Set 7 Out
Problem Set 6 Due
19Recitation: Exercises [TA]
20Lecture: Advanced Mechanics of Symmetric Beams [NMP] (371-412, Notes)
21Lecture: Advanced Mechanics of Complex Beams [NMP] (371-412, Notes)Problem Set 8 Out
Problem Set 7 Due
22Recitation: Exercises [TA]
23Lecture: Advanced Mechanics of Complex Beams [NMP] (371-412, Notes)
24Lecture: Advanced Mechanics of Complex Beams [NMP] (371-412, Notes)Problem Set 9 Out
Problem Set 8 Due
25Recitation: Exercise [TA]
26Lecture: Torsion (513-566), Analytical Solutions from Theory of Elasticity, Stress Concentration, St. Venant's Principle [NMP] (Notes)
27Lecture: Torsion (513-566), Analytical Solutions from Theory of Elasticity, Stress Concentration, St. Venant's Principle [NMP] (Notes)Problem Set 10 Out
Problem Set 9 Due
28Recitation: Exercises, Quiz 2 Review [TA]
29Lecture: Failure Criteria (261-282, Notes)Problem Set 11 Out
Problem Set 10 Due
30Quiz 2 (2 hours)
31Lecture: Elastic Stability of Columns (613-656, Notes)
32Lecture: Elastic Stability of Columns (613-656, Notes)Problem Set 12 Out
Problem Set 11 Due
33Recitation : Exercises [TA]
34Lecture: Energy Methods (179-195, 464-473, 657-696, Notes)
35Lecture: Energy Methods (179-195, 464-473, 657-696, Notes)Problem Set 13 Out
Problem Set 12 Due
36Lecture: Energy Methods (179-195, 464-473, 657-696, Notes)
37Lecture: Energy Methods (179-195, 464-473, 657-696, Notes)Problem Set 13 Due
38Recitation: Final Exam Review [TA]
39Lecture: Energy Methods (179-195, 464-473, 657-696, Notes)
40Lecture: Rayleigh Ritz/Galerkin Methods (Notes), Computational Structural Mechanics (697-722, Notes)

LEGEND: NMP=Nicholas M Patrikalakis JC=Jerome Connor TA=Teaching Assistant
Parentheses () indicate page number ranges in textbook.

MATLAB® is a trademark of The MathWorks, Inc.



Final Exam

Duration: 3 hours



 








© 2017 CourseTube.com, by Higher Ed Media LLC. All Rights Reserved.