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Civil Engineering is a vague field that has many discipline. Civil engineering is a tough subject even for study during its four year in bachelor program. There are several universities for civil engineering study, quality of any university or collage are depends on their input on students and also the capacity of student. Even you are student with high level of intelligence though your university is not going to support you with sufficient materials then
how can you become a good engineer?
No worry, now a days some universities with high reputation are sharing their lecture notes with all students. Here we are sharing some lecture notes from MIT a renowned University in USA.
Click in links provided for download lecture notes.
how can you become a good engineer?
No worry, now a days some universities with high reputation are sharing their lecture notes with all students. Here we are sharing some lecture notes from MIT a renowned University in USA.
Click in links provided for download lecture notes.
- Lecture Notes on Engineering Mechanics I
- Lecture notes on Civil Engineering MIT: Mechanics and Design of Concrete Structures
- Lecture notes on CIVIL Engineering MIT: Advanced Soil Mechanics
Lecture Notes on Engineering Mechanics I
(All these links are from MIT USA website, We are thankful to MIT)
SES # | TOPICS | LECTURE NOTES | SUMMARIES |
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1 | Introduction and Galileo's problem |
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2 | Dimensional analysis and atomic explosion |
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3 | Dimensional analysis and application to engineering structures |
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4 | Newton's laws of motion: the fall of the World Trade Center towers |
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5 | Stress vector and stress tensor |
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6 | Continuum model: hydrostatics example |
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7 | Continuum model: geostatics example |
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8 | Beam stress model |
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9 | Beam model II and summary |
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10 | Strength models |
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11 | Mohr stress plane and strength criteria |
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12 | Soil mechanics example |
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13 | Beam section strength model (M/N interactions) |
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14 | Strength of beam structures |
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15 | Review of stresses and strength |
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16 | Deformation and strain tensor |
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17 | Strain tensor (cont.) |
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18 | Mohr circle in strain space |
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19 | Beam deformation |
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20 | Elasticity: energy approach | ||
21 | Continuum elasticity | ||
22 | Elasticity: properties |
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23 | Elasticity solving methods |
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24 | Beam elasticity I |
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25 | Beam elasticity II |
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26 | Beam elasticity III |
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27 | Energy bounds: 1D system (minimum potential energy) |
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28 | Energy bounds: 1D system (minimum complementary energy) |
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29 | 1D energy methods: examples and applications |
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30 | Generalization to 3D |
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31 | Stress method for beam structures |
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32 | Energy methods for beam structures, example |
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Clapeyron's formulas for 1D (PDF)
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33 | How stuff fails: stability (Euler buckling) |
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34 | Fracture mechanics I |
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Demonstration of buckling (PDF)
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35 | Fracture mechanics II | ||
36 | Plastic collapse | ||
37 | Last lecture: review and summary | (PDF) |
Lecture notes on Mechanics and Design of Concrete Structures
(All these links are from MIT USA website, We are thankful to MIT)
LEC # | TOPICS | DESIGN EXAMPLES |
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1 | Introduction; Design Criteria for Reinforced Concrete Structures (PDF) | |
2 | Micro-cracking of Concrete; Stress-strain Behavior in Multiaxial Loading (PDF) | |
3 | Failure Theories (PDF) | |
4 | Concrete Plasticity (PDF) | |
5 | Fracture Concepts (PDF) | |
6 | Creep and Shrinkage Deformation (PDF) | |
7 | Ductility and Deflections (PDF) | |
8 | Shear Failures (PDF) | |
9 | Shear Transfer; Shear Design (PDF) | Failure Investigation of a Prestressed Concrete Bridge Girder (PDF) |
10 | Biaxial Bending (PDF) | |
11 | Beam Column Joints (PDF) | |
12 | Quiz 1 | |
13 | Torsion (PDF) | Shear and Torsion (PDF) |
14 | Term Project Update – Progress Reports and Presentations | |
15 | Torsion, Shear, and Flexure (PDF) | Shear and Torsion (PDF) |
16 | Yield Line Theory for Slabs (PDF) | Analysis of Rectangular Slabs Using Yield Line Theory (PDF) |
17 | R/C Thin Shell Structures (PDF) | |
18 | R/C Thin Shell and Structures (cont.) (PDF) | |
19 | Segmental Bridges / Tall Buildings (PDF) | |
20 | Term Project Update – Presentations | |
21 | Deterioration and Non-destructive Evaluation (NDE) of Concrete Structures (PDF) | |
22 | Earthquake Resistant Design; Repair and Seismic Retrofit of Concrete Structures (PDF) | |
23 | Quiz 2 | |
24 | Final Presentations | |
25 | Final Presentations (cont.) | |
26 | Review and Discussion |
Lecture notes on Advanced Soil Mechanics
(All these links are from MIT USA website, We are thankful to MIT)
Part II-1 Soil Composition, Index Properties and Soil Classification (PDF - 1.6 MB)
Part II-2 Soil Structure and Environmental Effects (PDF)
Part III-1 Dry Soil: Stresses (PDF)
Part III-2 Stress-Strain-Strength Properties (PDF - 1.0 MB)
Part III-3 Lateral Earth Pressures and Retaining Walls (PDF)
Part III-4 Shallow Foundations on Sand: Bearing Capacity (PDF - 3.0 MB)
Part IV-1 Effective Stress Principle and Capillarity (PDF)
Part IV-2 One-Dimensional Flow (PDF)
Part IV-2A Two-Dimensional Flow (PDF)
Part IV-3 Coefficient of Permeability (PDF 1 of 2) (PDF 2 of 2 - 2.0 MB)
Part IV-4 Stress-Strain-Strength Behavior of Saturated Clays (PDF - 2.4 MB)
Part IV-5 Lateral Earth Pressures (PDF)
Part IV-6 Slope Stability (PDF)
Part IV-7 Bearing Capacity (PDF)
Part V-1 Introduction, Pore Pressure Parameters and Undrained Shear (PDF)
Part V-2 Consolidation and Secondary Compression (PDF)
Part V-3 Stability Evaluation: Cohesive Soils (PDF)
Part V-4 Estimation of Design su in Practice (PDF - 2.0 MB)
Part V-5 Settlement Analyses (PDF - 3.0 MB)
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