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Date 
Homework Due 
Content/Activity 
1 
Jan 21 (W) 

Introduction Rectilinear Kinematics of a particle 
2 
Jan 23 (F) 

position, velocity ,acceleration diagrams 
3 
Jan 26 (M) 

Nontime formulation, straight line problems 
4 
Jan 28 (W) 

Curvilinear Kinematics of a particle 
5 
Jan 30 (F) 
HW1 
Projectile motion 
6 
Feb 2 (M) 

Normal and tangential acceleration 
7 
Feb 4 (W) 

Rigid body motion 
8 
Feb 6 (F) 
HW2 
Gear Day 
9 
Feb 9 (M) 

Rigid body motion 
10 
Feb 11 (W) 

RAFA Pulleys and Gears 
11 
Feb 13 (F) 
HW3 
Gears 
12 
Feb 18 (W) 

General Plane Motion 
13 
Feb 20 (F) 
HW4 
Instantaneous center 
14 
Feb 23 (M) 

Relative velocity problems 
15 
Feb 25 (W) 

Mechanics of rolling 
16 
Feb 27 (F) 

Exam 1 
17 
Mar 2 (M) 

Relative acceleration fixed frames 
18 
Mar 4 (W) 

Relative acceleration rotating frames 
19 
Mar 6 (F) 
HW5 
Relative acceleration rotating frames 
SPRING BREAK 

20 
Mar 16 (M) 

Moment of inertia by integration 
21 
Mar 18 (W) 

Moment of inertia by integration 
22 
Mar 20 (F) 
HW6 
Moment of inertia example problems 
23 
Mar 23 (M) 

Planar kinetics development of general equation 
24 
Mar 25 (W) 

Rectilinear kinetics 
25 
Mar 27 (F) 
HW7 
Review of friction 
26 
Mar 30 (M) 

Review 
27 
Apr 1 (W) 

Exam 2 
28 
Apr 6 (M) 

Slip/tip problem 
29 
Apr 8 (W) 

RAFA kinetics 
30 
Apr 10 (F) 

RAFA kinetics 
31 
Apr 13 (M) 

General Plane motion kinetics 
32 
Apr 15 (W) 

General plane motion kinetics 
33 
Apr 17 (F) 
HW9 
Principle of work and energy for particles 
34 
Apr 20 (M) 

Principle of work and energy for rigid bodies 
35 
Apr 22 (W) 

Principle of work and energy example problems 
36 
Apr 24 (F) 
HW10 
Principle of impulse – momentum for rigid bodies 
37 
Apr 27 (M) 

Principle of impulse – momentum for rigid bodies 
38 
Apr 29 (W) 

Collision – direct central impact 
39 
May 1 (F) 
HW11 
Collision oblique impact 
40 
May 4 (M) 

Collision oblique impact 
41 
May 6 (W) 
HW12&13 Due May 8 No solidworks upload required 
Summary and review 