ACM20050 Classical Mech. & Special Rel.

Academic Year 2021/2022

This course starts by developing the principles of Newtonian Mechanics for particles, systems of particles and rigid bodies. It focuses on applications of Newton's laws with an emphasis on problem solving. It then introduces the fundamental concept of Einstein’s theory of Special Relativity and the relativistic extension of Newtonian concepts such as energy relativity including Einstein's famous formula E=mc^2.[Newton’s laws of motion] Revision of Newton's laws of motion and the concept of kinetic and potential energy. Conservative force fields and conservation of energy. Equilibrium of a particle and stability of equilibrium. [Central forces and planetary and satellite motion]: Motion in a plane is discussed with a focus on central forces. Newton’s law of gravitation. Determination of the orbit from the central force. Kepler’s laws of planetary motion and the motion of satellites. [Moving coordinate systems]: Non-inertial coordinate systems. Rotating coordinate systems. Velocity and acceleration in a moving frame. Coriolis and centripetal acceleration. [Systems of Particles]: Centre of mass. Momentum of a system of particles. Motion of the centre of mass. Angular momentum of a system of particles. Total external moment acting on a system and it relation to the angular momentum. [Einstein's Special Theory of Relativity]: Einstein’s basic postulates of special relativity. The Lorentz transformation and the concept of simultaneity. Length contraction, time dilation, and elative velocity explained through the concepts of space-time diagrams and 4-vectors. The concepts of inertial mass, energy and momentum in special relativity including E=mc^2.