CEE_150_class_notes_one+slide+per+page

CEE_150_class_notes_one+slide+per+page - CEE 150 CEE 150...

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EE 150 CEE 150 echanics of Materials Mechanics of Materials Instructor: Dr. Farzin Zareian 1 1 Dr. Farzin Zareian
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Course outline Course units: 4 units Prerequisites: CEE 30 or ENGR 30, or MAE 30 (Statics) Text Book: Hibbeler, Mechanics of Materials , PEARSON (Prentice Hall) Other Books: F.P. Beer, E.R. Johnston, J.T. DeWolf, Mechanics of Materials , McGraw-Hill J.M. Gere, S.P. Timoshenko, Mechanics of Materials E.P. Popov, T.A. Balan, Engineering Mechanics of Solids , AND MANY OTHERS Dr. Farzin Zareian
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Course outline Meetings: Lecture: Monday, Wednesday, and Friday 2:00 PM – 2:50 PM. SPA 1100 SSPA 1100 Discussion: 50 minutes per week (Held by your TA: Omid Esmaili). ab: One session per week (Held by your TA: Peyman Kavianijopari ) Lab: One session per week. (Held by your TA: Peyman Kavianijopari ) Office hours: Wednesday 3:00 PM – 4:00 PM. E/4141 Engineering Gateway Work Credit (CEE 150): Home Work 5% (once a week) Pop quizzes 10% (during class) Midterm exam 40% Final exam 45% Total 100% Dr. Farzin Zareian
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Course outline Course Outcomes: 1- Apply knowledge of mathematics, science, and engineering dealing with mechanics of materials under axial loading, torsion, bending, and combined loading. 2- Draw axial force, torque, shear and moment diagrams of simple members subject to combined loading. 3- Compute stresses and strains in simple members subject to axial loading, torsion, bending, and combined loading. 4- Compute deflection of beams. 5- Compute buckling load of compressive members. 6- Design components to meet desired needs in terms of strength and deflection. Dr. Farzin Zareian
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Course outline opic Beer & Johnson ate Topic Section Numbers Date Introduction & Concept of Stress and Strain Review of Statistics, Stress, Analysis and Design of members, Different types of stresses, General Chapter 1 Week 1 xial Loading yp , loading conditions and components of stress Axial Loading Normal Strain, Stress-Strain Diagram, Engineering vs. True Stress nd Strain, Hooks Law, Elastic vs. Chapter 2 ot 2 16 & 2 19) Week 2 and Strain, Hooks Law, Elastic vs. Plastic Behavior, Axial Deformation, Poison Ratio, Shear Strain, Stress Concentration, Plastic Deformation (not 2.16 & 2.19) Dr. Farzin Zareian
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Course outline opic ate Beer & Johnson Topic Date Torsion Section Numbers eformations in circular shafts Chapter 3 (3.1- 3.6) Deformations in circular shafts, Stress and strain in circular members, Polar moment of inertia, Stress concentration in circular Week 3 shafts, design of circular shafts for torsion Pure Bending Chapter 4 ot 4 15) Deformation and stress/strain in symmetric members in pure bending l ti d Pl ti b h i ) tress Week 4 and 5 (not 4.15) (Elastic and Plastic behavior), Stress concentration, effect of eccentric loading on distribution of stress nd strain design considerations Dr. Farzin Zareian and strain, design considerations
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Course outline opic ate Beer & Johnson Topic Date Analysis of Beams hapter 5 Section Numbers Week 6 Chapter 5 (5.1- 5.4) hear Shear and Bending Moment Diagrams, Design for bending Shear Chapter 6 (6.1- 6.4) Distribution and determination of shear stress on the horizontal face f a beam element (rectangular Week 6 and 7
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This note was uploaded on 03/30/2012 for the course CIVIL ENGI CEE111 taught by Professor Recker during the Winter '12 term at UC Irvine.

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CEE_150_class_notes_one+slide+per+page - CEE 150 CEE 150...

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