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8.20

Introduction to Special Relativity

Prof. Markus Klute | January IAP 2021

Science & Math Physics Relativity Science

前往原始課程

CC BY-NC-SA 4.0

課程簡介

The theory of special relativity, originally proposed by Albert Einstein in his famous 1905 paper, has had profound consequences on our view of physics, space, and time. This course will introduce you to the concepts behind special relativity including, but not limited to, length contraction, time dilation, the Lorentz transformation, relativistic kinematics, Doppler shifts, and even so-called “paradoxes.”

課程資訊

來源	MIT 開放式課程
科系	Physics
語言	English
影片數	52

課程影片 (52)

1.1 Course Organization (8.20 Introduction to Special Relativity)

1.1 Course Organization (8.20 Introduction to Special Relativity)

1.2. Prof. Klute’s Research

1.2. Prof. Klute’s Research

1.3 History of Special Relativity

1.3 History of Special Relativity

1.4 Guest Lecture: Space, Time, and Spacetime

1.4 Guest Lecture: Space, Time, and Spacetime

1.5 Categories of Physics

1.5 Categories of Physics

2.2 Galilean Transformation

2.2 Galilean Transformation

3.3 Michelson-Morley Experiment

3.3 Michelson-Morley Experiment

3.4 Stellar Aberration

3.4 Stellar Aberration

4.1 Time Dilation

4.1 Time Dilation

4.3 Length Contraction

4.3 Length Contraction

4.5 Lorentz Transformation

4.5 Lorentz Transformation

5.1 Voyager Program

5.1 Voyager Program

5.2 Velocity Addition

5.2 Velocity Addition

5.3 Spacetime Diagrams

5.3 Spacetime Diagrams

5.4 Regions in Spacetime Diagrams

5.4 Regions in Spacetime Diagrams

6.1 Pole-in-the-Barn Paradox

6.1 Pole-in-the-Barn Paradox

6.2 Twin Paradox

6.2 Twin Paradox

6.3 Spacecraft-on-a-Rope Paradox

6.3 Spacecraft-on-a-Rope Paradox

7.1 Introduction to the Doppler Effect

7.1 Introduction to the Doppler Effect

7.2 Relativistic Doppler Effect

7.2 Relativistic Doppler Effect

7.4 Galaxy Travel

7.4 Galaxy Travel

8.1 Algebra of Lorentz transformations

8.1 Algebra of Lorentz transformations

8.2 Introduction to 4-Vector Notation

8.2 Introduction to 4-Vector Notation

8.3 Proper Velocity

8.3 Proper Velocity

9.1 Momentum Conservation

9.1 Momentum Conservation

9.2 Energy Conservation

9.2 Energy Conservation

9.4 Forces and Kinetic Energy

9.4 Forces and Kinetic Energy

10.1 Tests of Special Relativity

10.1 Tests of Special Relativity

10.2 The Large Electron-Positron Collider

10.2 The Large Electron-Positron Collider

10.3 Deuteron Production

10.3 Deuteron Production

10.4 Absorption and Emission of Photons

10.4 Absorption and Emission of Photons

10.5 Decay of a Pion

10.5 Decay of a Pion

10.6 Creation of Particles

10.6 Creation of Particles

10.7 Compton Effect

10.7 Compton Effect

10.8 Global Positioning System

10.8 Global Positioning System

11.1 Charge and Current

11.1 Charge and Current

11.2 Electric and Magnetic Fields

11.2 Electric and Magnetic Fields

12.1 Equivalence Principle

12.1 Equivalence Principle

12.2 Time Dilation Effect on Earth

12.2 Time Dilation Effect on Earth

12.3 Bending of Light

12.3 Bending of Light

12.4 Redshift Tests

12.4 Redshift Tests

12.5 General Relativity

12.5 General Relativity

12.6 Experimental Evidence

12.6 Experimental Evidence

13.2 Course Review

13.2 Course Review