GE 2100 Daily Schudule
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GE 2100 Engineering Mechanics Course Syllabus First Semester 2015/2016 G Textbook: Engineering Mechanics, Statics and Dynamics, 5 th Edition, SI Version, 2003 by J. L Meriam and L C, Kraige Lecture Article Hours Sectio ns SP Problems (time dependent) Tutorial Homework INTRODUCTION 1/1-7 1/2,3 1/1, 3 1/4, 9,10 App. C FORCES SYSTEMS Force 2/1,2, 2/1,2, 2/13 2/8,9,11 2/4, 16,21 Moment and Couple 2/4,5 2.5,6,7, 2/31,38 2/32,39,66 2/36,44,70 Resultants 2/6 2.8 2/77, 2/85,82, 2/86,88,90 EQUILIBRIUM. System Isolation 3/1,2 3/A 3/B 3/C Equilibrium Conditions 3/3 3/1,2,4 3/6,20, 3/14,16, 3/32, 43,57 DISTRIBUTED FORCES Mass centers & 5/1,2, 5/1,2,3,4 5/5 5/7,44,50 5/43,48 Area Moments of A/ A/33, 50 A/34, 37,42 A/43,50 Composite Bodies 5/6, 5/8 5/47, 63 5/43, 49, Beams 5/6,7 5/93, 118 5/97, 5/96, 100, FRICTION 6/1,2, 6/2,3 6/4, 12 6/8,13,15 6/2,5,18 KINEMATICS OF PARTICLES Rectilinear Motion 2/1,2 2/1,2,3 2/7, 49 2/45, 46,51 2/11, 35,53 Plane Curvilinear 2/3 x-y coordinates 2/4 2/6 2/81, 84 2/68, 84 2/80, 88,95 t-n coordinates 2/5 2/7,8 2/99,119 2/97, 2/105, r-θ coordinates 2/6 2/9,10 2/135, 140 2/138,141,1 2/142, KINETICS OF PARTICLES Newton’s Second Law 3/1,2 Equation of Motion 3/3 Rectilinear motion 3/4 3/1,2,3 3/5,28 3/7, 12 ,27 3/11,14,28 Curvilinear motion 3/5 3/6,7,8 3/51, 66 3/77, 81,84 3/52, 54,99 Work and Energy method 3/6,7 3/11,12,13 ,14,16,17 3/117, 148 3/110, 122 3/144, 149 KINEMATICS OF RIGID BODIES Rotation 5/1,2 5/2,3 5/2 5/17,21 5/13,20 Relative Velocity 5/4 5/7,8,9 5/57, 71,65 5/69,83 5/75, 79,82 Relative Acceleration 5/6 5/13, 14 5/124, 136 5/128,134,1 5/119, KINETICS OF RIGID BODIES Equations of Motion 6/1,2 Translation 6/3 6/1,2 6/1,26 6/15,18 6/4, 10,32 Rotation 6/4 6/3,4 6/42 6/40,43 6/33, 39 General Plane Motion 6/5 6/5,8 6/90 6/95,99 6/79, 97
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Transcript of GE 2100 Daily Schudule
GE 2100 Engineering Mechanics Course Syllabus
First Semester 2015/2016 G Textbook: Engineering Mechanics, Statics and Dynamics, 5th Edition, SI Version, 2003
by J. L Meriam and L C, KraigeLecture
Article HoursSections SP Problems
(time dependent)Tutorial Homework
INTRODUCTION 1/1-7 1/2,3 1/1, 3 1/4, 9,10
App. C
FORCES SYSTEMS
Force 2/1,2,3 2/1,2, 2/13 2/8,9,11 2/4, 16,21
Moment and Couple 2/4,5 2.5,6,7, 2/31,38 2/32,39,66 2/36,44,70
Resultants 2/6 2.8 2/77, 84,87,156 2/85,82, 89,157 2/86,88,90
EQUILIBRIUM.
System Isolation 3/1,2 3/A 3/B 3/C
Equilibrium Conditions 3/3 3/1,2,4 3/6,20, 32,49 3/14,16, 44,47 3/32, 43,57
DISTRIBUTED FORCES
Mass centers & Centroids 5/1,2,3,4 5/1,2,3,4,56 5/5 5/7,44,50 5/43,48
Area Moments of Inertia A/1,2,3 A/33, 50 A/34, 37,42 A/43,50
Composite Bodies 5/6, 5/8 5/47, 63 5/43, 49, 57
Beams 5/6,7 5/93, 118 5/97, 106,121 5/96, 100, 119
FRICTION 6/1,2,3 6/2,3 6/4, 12 6/8,13,15 6/2,5,18
KINEMATICS OF PARTICLESRectilinear Motion 2/1,2 2/1,2,3 2/7, 49 2/45, 46,51 2/11, 35,53
Plane Curvilinear Motion 2/3
x-y coordinates 2/4 2/6 2/81, 84 2/68, 84 2/80, 88,95
t-n coordinates 2/5 2/7,8 2/99,119 2/97, 114,121 2/105, 112,125
r-θ coordinates 2/6 2/9,10 2/135, 140 2/138,141,143 2/142, 144,145
KINETICS OF PARTICLESNewton’s Second Law 3/1,2
Equation of Motion 3/3
Rectilinear motion 3/4 3/1,2,3 3/5,28 3/7, 12 ,27 3/11,14,28
Curvilinear motion 3/5 3/6,7,8 3/51, 66 3/77, 81,84 3/52, 54,99
Work and Energy method 3/6,7 3/11,12,13,14,16,17
3/117, 148 3/110, 122 3/144, 149
KINEMATICS OF RIGID BODIES
Rotation 5/1,2 5/2,3 5/2 5/17,21 5/13,20
Relative Velocity 5/4 5/7,8,9 5/57, 71,65 5/69,83 5/75, 79,82
Relative Acceleration 5/6 5/13, 14 5/124, 136 5/128,134,135 5/119, 129,141
KINETICS OF RIGID BODIES
Equations of Motion 6/1,2
Translation 6/3 6/1,2 6/1,26 6/15,18 6/4, 10,32
Rotation 6/4 6/3,4 6/42 6/40,43 6/33, 39
General Plane Motion 6/5 6/5,8 6/90 6/95,99 6/79, 97
