PHYSICS S5 Unit 12: Relativity Concepts and Postulates of Special Relativity

What Will You Learn?

• The course Unit 12: Relativity Concepts and Postulates of Special Relativity will introduce you to Albert Einstein's Special Theory of Relativity, a revolutionary framework that fundamentally changed the concepts of space, time, mass, and energy. You will learn how measurements of physical quantities are affected by an observer's motion at speeds approaching the speed of light.
• I. Foundations of Special Relativity
• You will begin by studying the experimental crisis in classical physics that necessitated Einstein's new theory:
• • Failure of the Ether: You will analyze the Michelson-Morley Experiment, which found a null result, demonstrating that the speed of light is independent of the observer's motion, thus disproving the existence of the supposed medium for light waves, the luminiferous ether.
• • Einstein's Postulates: The course is built upon these two core assumptions:
• 1. Principle of Relativity: The laws of physics are the same for all observers in all inertial (non-accelerating) reference frames.
• 2. Constancy of the Speed of Light: The speed of light in a vacuum (c) is constant for all inertial observers, regardless of the motion of the light source.
• II. Relativistic Consequences for Space and Time
• By accepting the two postulates, you will derive and analyze the counter-intuitive effects on measurement:
• • Relativity of Simultaneity: The concept that two events judged to happen simultaneously by one observer may not be simultaneous for a moving observer.
• • Time Dilation: You will learn that time intervals are longer for objects that are moving relative to an observer. You will use the Lorentz factor (γ) to calculate the dilated time (t):
• t = t0γ
• Where t0 is the proper time (the time measured in the object's rest frame).
• • Length Contraction: You will learn that the length of an object measured by a moving observer appears shorter only in the direction of motion. You will use the formula:
• L = L0 /γ
• Where L0 is the proper length (length measured in the object's rest frame).
• III. Mass and Energy Equivalence
• You will study the impact of relativity on the concepts of mass, momentum, and energy:
• • Relativistic Momentum and Mass: You will learn that the momentum and apparent mass of an object increase as its velocity approaches c. This increase acts as a physical barrier, making it impossible for any massive object to reach the speed of light.
• • Mass-Energy Equivalence: You will study the most famous equation in physics, which establishes that mass is a form of energy and vice-versa:
• E = mc2
• You will apply this relationship to understand the vast amounts of energy released in processes like nuclear fission and fusion.
• This unit provides the mathematical tools to analyze motion accurately at high speeds.