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Course
Pro-forma
Bachelor of Engineering (Computer Aided Design & Manufacturing)
Code
KCEC1201
Title
Dynamics
Pre-requisite
KCEC1106 Statics
Student Learning Time (SLT)
120 hours
Credit
3
Learning Outcomes
1.
Examine the kinematic relations and equation of motion of
particles in rectilinear and curvilinear motions.
2.
Compare the difference between kinematics and kinetics
relations of particle and rigid-bodies.
3.
Analyze and solve problems related with kinematics and
kinetics of particles and rigid bodies using Newtons Second
Law, energy, impulse and momentum methods.
4.
Analyze relative motion analysis of particles and rigid bodies
in rotating and translating coordinates.
5.
Apply the fundamental dynamic methods and equations in
engineering applications and mechanisms.
Synopsis
In this course, students learn about Particles kinematics:
rectilinear motion, curvilinear motion, rectangular motion and
circular motion. Student also will learn about Particles kinetics:
force and acceleration, motion on and Particles kinetics: work
and energy method. And also about Rigid bodies kinematics:
relative motion and Rigid bodies kinetics: force/acceleration
method, and, moment of inertia.
Assessment
40 % Continuous Assessments
60 % Final Examination
References
1.
J L Meriam and L G Kraige. Engineering Mechanics. Volume
1, Statics and Volume 2, Dynamics. 5th edition (SI Version)
Wiley, New York.
2.
F P Beer and E R Johnston Jr. “Vector Mechanics for
Engineers: Dynamics”, McGraw-Hill.
3.
R C Hibbeler. Engineering Mechanics: Dynamics. Prentice
Hall.
Soft Skills
Critical Thinking & Problem Solving Skills (CT1, CT2, CT3)
Team Work Skills (TS1, TS2)