Presentation is loading. Please wait.

Presentation is loading. Please wait.

Einstein’s Theory of Relativity

Published byCaren Lindsey Modified over 6 years ago

Similar presentations

Presentation on theme: "Einstein’s Theory of Relativity"— Presentation transcript:

1 Einstein’s Theory of Relativity
Is there a maximum velocity in nature ? If no, then one can travel or convey information over infinite distances in infinitesimally short time – Action at a distance as presupposed by Newton But, do not observe instantaneous action implying infinite speed But if yes, then what is the limiting velocity v(lim)? Can easily exceed the limit by adding velocities: v1 + v2 > v(lim) Answer seems to be neither no nor yes

2 The Two Postulates of Relativity
Speed of light is the maximum speed in nature, and is constant regardless of the speed of the source or the observer All physical laws are the same everywhere, and should have the same form (equations) when describing the same phenomenon (first proposed by Galileo)  Principle of Relativity Changes our concept of space and time

3 Consequences of Relativity
Special Theory of relativity  constant velocities Can not simply add velocities v1 + v2 v = (v1 + v2) / (1 + v1v2 / c2) E = m c2  Energy and mass are equivalent (example: atomic energy, A- and H-bombs) No object with mass can attain the speed of light; its inertial mass becomes infinite m = m(rest) / (1 – v2/c2)1/2 Light is bent by gravity of a massive object such as the Sun

4 Relativity (Contd.) General Theory of Relativity
 Accelerating objects and gravity Why are astronauts in the orbiting space shuttle weightless ? They are continuously falling towards the Earth at the same rate as the floor of the space shuttle (e.g. like a freely falling elevator) Gravity  Acceleration (equivalent) Basic idea: F = ma  W = mg

5 Relativity (Contd.) Space and time are equivalent (simultaneity is relative, not absolute) Example: Two observers, one on a moving train and the other stationary on the ground observe “simultaneous” flashes of light at different times  difference in space due to motion is “converted” to difference in time Time ‘flows’ slower in a moving frame of reference (astronauts live slightly longer!), or near a massive object such as a black hole

6 Time Dilation and Space Contraction
A time interval in a moving frame of reference (platform moving with velocity v) gets longer as t’ = t / [ 1 – (v/c)2]1/2 But the space interval gets shorter as x’ = x [ 1 – (v/c)2]1/2

Download ppt "Einstein’s Theory of Relativity"

Similar presentations

Lecture 20 Relativistic Effects Chapter 26.6 26.10 Outline Relativity of Time Time Dilation Length Contraction Relativistic Momentum and Addition of Velocities.

Lecture 20 Relativistic Effects Chapter Outline Relativity of Time Time Dilation Length Contraction Relativistic Momentum and Addition of Velocities.
Caroline Chisholm College

Caroline Chisholm College
Relativity H2: Concepts and postulates of special relativity.

Relativity H2: Concepts and postulates of special relativity.
Theory of Special Relativity

Theory of Special Relativity
Chapter 18: Relativity and Black Holes

Chapter 18: Relativity and Black Holes
PHY306 1 Relativity Principle of relativity  not a new idea! Basic concepts of special relativity  …an idea whose time had come… Basic concepts of general.

PHY306 1 Relativity Principle of relativity  not a new idea! Basic concepts of special relativity  …an idea whose time had come… Basic concepts of general.
Special and General Relativity

Special and General Relativity
Galileo simply described this as the fact that an observer in motion sees things differently from a stationary observer We use this as a part of our everyday.

Galileo simply described this as the fact that an observer in motion sees things differently from a stationary observer We use this as a part of our everyday.
SPECIAL RELATIVITY -Postulates of Special Relativity -Relativity of time –> time dilation -Relativity of length –> length contraction © 2005.

SPECIAL RELATIVITY -Postulates of Special Relativity -Relativity of time –> time dilation -Relativity of length –> length contraction © 2005.
General Relativity I The need for a more general theory of relativity… Einstein’s tower experiment The strong equivalence principle.

General Relativity I The need for a more general theory of relativity… Einstein’s tower experiment The strong equivalence principle.
Relativity Chapter 26. Introduction Major Physics accomplishments by the end of the 19 th century –Newton’s laws –Universal gravitation –Kinetic-molecular.

Relativity Chapter 26. Introduction Major Physics accomplishments by the end of the 19 th century –Newton’s laws –Universal gravitation –Kinetic-molecular.
Physics 6C Special Relativity Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.

Physics 6C Special Relativity Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.
Special Relativity & General Relativity

Special Relativity & General Relativity
Hubble Diagram: Distribution of Galaxies. Hubble’s Law: v = H o d Velocity increases with distance.

Hubble Diagram: Distribution of Galaxies. Hubble’s Law: v = H o d Velocity increases with distance.
Special Relativity The Death of Newtonian Physics.

Special Relativity The Death of Newtonian Physics.
Outline - Feb. 8, 2010 Postulates of special relativity State of Motion Reference Frames Consequences of c = constant Time dilation and length contraction.

Outline - Feb. 8, 2010 Postulates of special relativity State of Motion Reference Frames Consequences of c = constant Time dilation and length contraction.
18 September 2001Astronomy 102, Fall 20011 Einstein at Caltech, 1933 Today in Astronomy 102: relativity In the next five lectures we will discuss Einstein’s.

18 September 2001Astronomy 102, Fall Einstein at Caltech, 1933 Today in Astronomy 102: relativity In the next five lectures we will discuss Einstein’s.
Chapter 26 Relativity. General Physics Relativity II Sections 5–7.

Chapter 26 Relativity. General Physics Relativity II Sections 5–7.
Introduction to special relativity

Introduction to special relativity
Phy107 Fall 2006 1 From last time… Galilean Relativity –Laws of mechanics identical in all inertial ref. frames Einstein’s Relativity –All laws of physics.

Phy107 Fall From last time… Galilean Relativity –Laws of mechanics identical in all inertial ref. frames Einstein’s Relativity –All laws of physics.

Similar presentations

Ads by Google