Theory = 3
Practical = 1
COURSE LEARNING OUTCOMES (CLOs)
|1||Explain motion of a particle in terms of kinematic parameters||Cognitive
|2||Carry out calculations for forces, work – energy and impulse – momentum for particles||Cognitive
|3||Perform kinematic / kinetic analysis for different types of rigid body motions||Cognitive
|4||Perform experiments and determine behavior of the moving objects||Psychomotor
- Kinematics of Particles: Rectilinear and curvilinear motion of particles, Rectangular, Tangential, Normal, Radial and transverse components of velocity and acceleration, Motion relative to a frame in translation.
- Kinetics of Particles: Force, Mass and acceleration, Newton’s second law, Dynamic equilibrium, Rectilinear and curvilinear motion, Work and energy, Kinetic energy of a particle, Principle of work and energy, Conservation of energy, Impulse and momentum, Impulsive forces and conservation of momentum, Impact, direct and oblique, Angular momentum of particle and a system of particles, Conservation of angular momentum, Variable systems of particles, Systems gaining or losing mass.
- Kinematics of Rigid Bodies: Translation, Rotation about fixed axis, General plane motion, Absolute and relative velocity and acceleration.
- Plane Motion of Rigid Body: Forces, Acceleration, Energy and momentum, Conservation of linear and angular momentum.
- Kinetics of Rigid Bodies in Three Dimensions: Equations of motion of a rigid body about a fixed point, About its mass center or about a fixed axis, Gyroscopic motion.
(01) R.C. Hibbeler, Engineering Mechanics: Dynamics, 14th Ed. Pearson Education Inc., 2015.
(02) J.L. Meriam, Engineering Mechanics: Dynamics, 8th Ed. Wiley, 2015.
*For details of Taxonomy Levels CLICK HERE!