This course covers a wide range of topics including vector algebras and analysis. Motion in one and wo dimensions and projectile motion. Newton’s laws of motion. Friction force and properties of friction. Drag force, Circular motion and Central forces. Work and energy. Energy conservation laws. Center of mass of the system. Impulse and linear momentum. Elastic and inelastic collisions. Rigid body motion. Rational motion and their variables. Kinetic energy of rotation. Moment of inertia. Angular momentum and torque. Tongue and condition mechanical equilibrium. Conservation of angular momentum. Angular momentum and kinetic energy of a rigid body. Kepler’s laws.
The student under the supervision of one of the faculty members chooses a topic that she likes to accomplish her graduation project in, depending on the laboratory and human resources necessary to oversee the work of the student. Students then make a work plan for the project starting with, a literature review, and problem formulation
In addition to the theoretical part, the practical part "of the project includes various laboratory experiments", compatible graphic drawings, if any, as well as statistical and other operational requirements of the research.
Then the student present a presentation for the findings of her research, attended by a committee to evaluate her project and grant her the degree she deserves on the presentation, the student's answer to the questions asked, and the written thesis.
