IDE 150, Spring 2008 Syllabus (Policy Sheet)
IDE 150, Spring 2008
Schedule/Homework Sheet
Pre-Final Grades: A-E, F-L, M-R, S-Z
IDE 150, Spring 2008 Schedule
Lesson | Date | Day | Topic | Reading | Homework Helps |
1 | Jan 15
|
Tues | Particle Kinematics:
Straight Line Motion Video Lecture: Straight Line Motion Notes Video Ex Prob 1 Notes Video Ex Prob 2 Notes Video Ex Prob 3 Notes Extra Problems: 12.2,9,17 |
12.1-3 | 12.5,31a,7,11 (31b alternate method) |
2 | 17
|
Thurs | Particle Straight Line
Motion: Integration Probs Video Ex Prob 1 [a=f(s)] Notes Video Ex Prob 2 [a=f(v)] Notes Video Ex Prob 3 [Graphical] Notes Extra Problems: a = f(v): 12.29a
(or 12.29b); |
12.1-3 | 12.18,22,15,45 |
3 | 22
|
Tues | Video Lectures: Circular
Motion Equations, Problems |
|
Circular Motion: at = const: 12.100 at = f(s): 12.115 at = f(t): 12.101 Projectile Prob: 12.93,94 Find theta: 12.83,84 |
4 | 24
|
Thurs | Lecture
Topics (x-y coordinates): Notes for class: Math Preliminaries (Dot Notation, Chain Rule) In-Class Lecture Example Problems: Parametric Equations Examples Path Known Example HW Parametric & Path Known Problems: Parametric HW 1 Solution Path Known HW 2 Solution Other Miscellaneous Notes, Helps Chain Rule Practice Problems Two Ways to Specify Motion (Parametric Eqns vs. Path Known) Two Additional Practice Problems: Practice Problem 1: Parametric Solution Practice Problem 2: Path Known Solution |
12.4-6 | x-y HW Problems: Parametric Eqns: 12.67,77, HW 1 Prob Path Known: 12.74,79, HW 2 Prob Solutions: HW
1 (Parametric)
|
5 | 29
|
Tues |
n-t
Coordinates Notes plus Audio Misc
old notes (n-t coordinates):
Class Handouts: |
|
n-t HW Problems Intro Prob: 12.102 Non-Circular: 12.106 Thinking Prob: 12.128
|
Skip | Skip | Skip | Curvilinear
Motion (r,q) Parametric (r,q) Practice: 12.141 Path Known (r,q) Practice: 12.154 |
12.8 | Parametric Eqns: 12.140,150 Path Known: 12.154,163 |
6 | 31
|
Thurs | Relative Motion,
Dependent Motion |
12.9 | "Two Body" Problems: 12.197,201,203 "Boat-in-Water" , "Plane-in-Wind" Probs: 12.204 |
7 | Feb 5
|
Tues | Relative Motion, Dependent Motion |
12.10 | Basic Pulleys: |
8 | 7 | Thurs | |||
9 | 12 | Tues | Video
Lecture 1: Intro to Rigid Body Motion (Notes) Fixed Axis Rotation Video Lecture 2: General Angular Motion (Notes) Example Problem 1: (Notes) Example Problem 2: (Notes) |
16.1-3 | 16.3,11,18,27 |
10 | 14 | Thurs | Video
Lecture 3: Relative Velocity Eqn (Notes) Example Problem 1: (Notes) Example Problem 2: (Notes) Example Problem 3: (Notes) |
16.4 | Abs. Analysis: 16.35,38 Relative Velocity: 16.46,56,53 |
11 | 19 | Tues | Relative
Velocity |
16.5 | Sliders: 16.54 Four Bar Mech.: 16.58 (58 by IC method) Pipe on Truck: 16.61 HW Probs Given in class: 1. Slipping Wheel Prob (Soln) 2. Four Bar Prob (Soln) 3. Slider Mech Prob (Soln) |
12 | 21 | Thurs | Instantaneous
Center, Wheels Rolling Wheels: 16-52,54,71,88,89 Slipping Wheels: 16-56, 66 Wheel on Truck: 16-53,69,70 Wheels&Links: Example Probs Rel Vel / IC Sample Quizzes |
16.6 | 16.85,86,94,97 16.90 by Rel Vel |
13 | 26 | Tues | Relative Acceleration | 16.7 | 16.107,114,111,110 Class Problem, Solution |
14 | 28 | Thurs | Relative
Acceleration Practice Problems, Solutions: 1, 2, 3 |
16.7 | 16.109,115,117,126 |
15 | March 4 | Tues | Exam 2 (Link to old BE 150/BE 140 exams) | ||
16 | 6 | Thurs | Particle F=ma Straight Line
Motion Video Lecture (Notes) Ex Prob 1 (Elevator): (Notes) Ex Prob 2 (Weight on String): (Notes) Ex Prob 3 (Two Blocks Easy): (Notes) Ex Prob 4 (Conveyor Belt): (Notes) Ex Prob 5 (Two Blocks Harder): (Notes) |
13.1-4 | 13.5,13,18,36,37 |
17 | 11 | Tues | Particle F=ma n-t
Coordinates Video Lecture (Notes) Vertical Plane Problems: Ex Prob 1 (Pendulum): (Notes) Ex Prob 2 (Car Cresting Hill): (Notes) Ex Prob 3 (Space Shuttle): (Notes) Horizontal Plane Problems: Ex Prob 4 (Tetherball): (Notes) Ex Prob 5 (Car on Track): (Notes) Other: (Non-Circular) Ex. Prob 6 (Non-Circular Path): (Notes) |
13.5-6 | 13.53,54,67,74,77 Textbook (10th Ed): 13.53,54 A pendulum: 13.73 |
13 | Thurs | No class; St. Pat's Break | |||
18 | 18 | Tues | Moments
of Inertia, Translation Hot Rod Mag (Sept 98) Pix (front wheels lift): 1,2 Example translation problems: Car (Slip or front tires lift) Truck: Pipe lifts, Crate tip/slip Curvilinear Translation (see Ex. 17-8 in text) |
17.1-3 | 17.26,31,36,38a,b |
19 | 20 | Thurs | Fixed Axis Rotation, Mass
Moment of Inertia Video Lecture (FA Rotation) (Notes) Video Lecture (Mass Moment of Inertia) (Notes) CG at Pin Ex Prob 1 (Drum with Weight) (Notes) CG not at Pin Ex Prob 2 (Horiz Slender Bar) Ex Prob 3 (Rectangular Plate) (Notes) Ex Prob 4 (Slender Bar with Omega) (Notes) CG at Pin: 17.57, 78, 80, 81 CG not at Pin: 17.53, Rect Plate |
17.4 |
CG at Pin: 17.80, 9th Ed. 81: Prob, Sol'n CG not at Pin: 17.53,70a+b,57 |
24-24 | No class; Spring Break | ||||
20 | April 1 | Tues | General
Plane Motion Wheel on Slope: 17-88, 89, 112 Spool w/ Cable: 17-95 Wheel w/ Couple: 17-99 Wheel w/ Falling Block: 17-113 (Similar to 17-114) |
17.5 | 17.88,92,112,102 |
21 | 3 | Thurs | Rigid Body Gen Plane Motion
Lecture 2 Ex Prob 1 (Easy Plate on Table) (Notes) Ex Prob 2 (Spool with Falling Block) (Notes) Ex Prob 3 (Bar Sliding Down Wall) (Notes) Example Problems: Wheel w/ Falling Block Bar Sliding Down Wall Bar Lifting Up on Sled: 1, 2a, 2b Unbalanced Wheel Bar w/ One Cable: 17-99 Wheel w/ Block: Problem, Solution (17-113 Modified) |
17.5 | 17.103 Wheel w/ Block Soln Bar Lifting Up on Sled 1, 2a, 2b |
22 | 8 | Tues | Practice Exam 1:
Problems: 1,2,3,4
Solutions: 1,2,3,4 Review: Particle and Rigid Body F = ma (Chapters 13, 17) |
||
23 | 10 | Thurs | Exam 3 (Link to old BE 150/BE 140 exams) | ||
24 | 15 | Tues | Work-Energy for Particles Video Lecture 1 (General Intro to WE) Notes Video Lecture 2 (Sign on Spring Eqn) Notes Video Lecture 3 (Probs Easy with WE) Notes Ex Prob 1 (Slider with Spring & Weight) Notes Ex Prob 2 (Block on Slope) Notes Ex Prob 3 (Bungee Jump) Notes Ex Prob 4 (Roller Coaster) Notes Ex Prob 5 (Compound Bow & Arrow) Notes Ex Prob 6 (Harder Slider with Spring 1) Notes Ex Prob 7 (Harder Slider w/ Spring 2) Notes |
14.1-6 | 14.7,17,75a,b,77a,79,83 Extra: 14.3,29,78a,b 14.78 MathCad Soln |
25 | 17 | Thurs | Work-Energy for Rigid Bodies Video Lecture (WE Rigid Bodies) Notes Example Problem 1 Notes Example Problem 2 Notes Example Problem 3 Notes (Old) Lecture Notes: Page 1 Page 2 Example Problem 1 Example Problem 2 Example Problem 3 |
18.1-5 | 18.3,6,12,43 |
26 | 22 | Tues | Work-Energy for Rigid Bodies (cont'd) | 18.1-5 | Extra Rigid Body WE probs: 18.2,13,23,30,28,52 Harder version of 18.28 |
27 | 24 | Thurs | Particle Impulse-Momentum Video Lecture (IM Equation) Notes Ex Prob 1 (Batter Hitting Ball) Notes Ex Prob 2 (Area Under Curve, tstart) Notes |
15.1 | I-M Equation: 15.23,21,30,20 Optional: 15.6 (like 15.23) |
28 | 29 | Tues | Conservation of Momentum Video Lecture (Cons of Momentum) Notes Ex Prob 1 (Sack of Sand on Sled) Notes Ex Prob 2 (Ballistic Pendulum) Notes |
Cons of Momentum: 15.33,39,37 Optional: 15.45 (my version) |
|
Skip | Skip | Skip | Interacting Systems Basic Problems: 15-32,33 Calculate Impulses: 15-39,41 Use Rel Vel Eqn: 15-37,38,48,53 |
15.2-3 | Cons of Momentum: 15.33,39,37 Hard but interesting: 15-53 MathCad Soln (11th Ed) |
29 | May 1 | Thurs | Particle Impact Impact and Coeff of Restitution Notes Ex Prob 1 (Straight Line Impact) Notes Ex Prob 2 (Semi-Oblique Particles) Notes Ex Prob 3 (Ball Bounce on Surface) Notes Ex Prob 4 (Oblique Ball on Surface) Notes Ex Prob 5 (Fully Oblique Particles) Notes Ex Prob 6 (Oblique Ball on Angled Surface) Notes |
15.4 | Impact HW: 15.56,79,81,84 Optional: 15.64,67,68,87 |
30 | 6 | Tues | Review for Exam 4 Fall 2005, Exam 4A: Audio Notes: 1,2,3,4 PPT Notes: 1,2,3,4 Solution Notes: 1,2,3,4 Fall 2005, Exam 4B: Audio Notes: 1,2,3,4 PPT Notes: 1,2,3,4 Solution Notes: 1,2,3,4 |
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31 | 8 | Thurs | Review for Final Exam (includes Exam 4 material) Review for Final Exam: Notes for old finals.... |
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Departmental Final Exam: Wednesday, May 13, 4:00-6:00 PM |