Write a 4-12 page paper covering the concepts and topics since the beginning of the course! These topics include:
Topics |
Chapters of the book |
Rectilinear motion of particles |
12.1-12.2 |
Rectilinear motion of particles – piecewise continuous motion |
12.3 |
Curvilinear motion – rectangular coordinates |
12.4 – 12.6 |
Curvilinear motion – normal/tangential (path) coordinates |
12.7 |
Curvilinear motion – cylindrical coordinates |
12.8 |
Curvilinear motion – continued |
|
Relative and dependent motion of particles |
12.9 – 12.10 |
Particle kinetics: Rectangular coordinates |
13.1 – 13.4 |
Particle kinetics: normal/tangential coordinates |
13.5 |
Particle kinetics: cylindrical coordinates |
13.6 |
Particle work and energy |
14.1-14.3 |
Power, efficiency, and conservation of energy |
14.4 – 14.6 |
Linear momentum and impulse |
15.1-15.2 |
Conservation of momentum for systems of particles |
15.3 |
Impact |
15.4 |
Each topic DOES NOT need its’ own section. For example, it may be easiest to talk about curvilinear motion in one section, or you may find it easier to separate curvilinear motion into two sections. Do what works best for you!
The paper should be single spaced, size 12 font, Times New Roman. You do not need to have a specific format for your reference section (if you use one), but you should include one if you are using outside references besides the class book.
Additionally, 1 example problem from the topics above should be included in the paper and explained in detail (Like we have been doing for the HW and Lecture Activities)! That is 1 example problem in total!
Make sure to review the rubric before starting this assignment!
The rubric refers to mastery, general knowledge, poor knowledge, or no knowledge. For reference, below is an example of these levels of knowledge/details related to the definition of the moment of a force.
RUBRIC IS ATTACHED AS A PICTURE
ONLY ONE EXAMPLE PROBLEM PLEASE. PROBLEM EXAMPLE IS PROVIDED AS REFERENCE.
LINK FOR BOOK: http://xn--webducation-dbb.com/wp-content/uploads/2019/01/engineering_mechanics_-_dynamics_12th_edition_rc_hibbeler.pdf
Thank you
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