Chapter-1 Relativity Part I RADIATION

Similar documents
Space, Time and Simultaneity

RELATIVITY. Einstein published two theories of relativity. In The Special Theory. For uniform motion a = 0. In The General Theory

Relativity. An explanation of Brownian motion in terms of atoms. An explanation of the photoelectric effect ==> Quantum Theory

Modern Physics. Third Edition RAYMOND A. SERWAY CLEMENT J. MOSES CURT A. MOYER

Relativity. Physics April 2002 Lecture 8. Einstein at 112 Mercer St. 11 Apr 02 Physics 102 Lecture 8 1

CHAPTER 2 Special Theory of Relativity-part 1

The Constancy of the Speed of Light

Principle of Relativity

Unit- 1 Theory of Relativity

Understanding and Testing Relativity

Massachusetts Institute of Technology Physics Department Physics 8.20 IAP 2005 Introduction to Special Relativity

We search for the ether. Next time: The ether is missing Conspiracy? I think not!

ENTER RELATIVITY THE HELIOCENTRISM VS GEOCENTRISM DEBATE ARISES FROM MATTER OF CHOOSING THE BEST REFERENCE POINT. GALILEAN TRANSFORMATION 8/19/2016

Derivation of Special Theory of Relativity from Absolute Inertial Reference Frame

Announcement. Einstein s Postulates of Relativity: PHYS-3301 Lecture 3. Chapter 2. Sep. 5, Special Relativity

JF Theoretical Physics PY1T10 Special Relativity

Physics 2D Lecture Slides Lecture 2. March 31, 2009

Introduction. Classical vs Modern Physics. Classical Physics: High speeds Small (or very large) distances

Pass the (A)Ether, Albert?

Aristotle: If a man on top of a mast in a moving ship drops an object, it would fall toward the back of the ship.

The Foundations of Special Relativity

Introduction to Relativity & Time Dilation

Chapter 36 The Special Theory of Relativity. Copyright 2009 Pearson Education, Inc.

02. Special Relativity: The 2 Postulates and the Michaelson- Morley Experiment

Einstein for Everyone Lecture 2: Background to Special Relativity

Newtonian or Galilean Relativity

CHAPTER 2 Special Theory of Relativity

Massachusetts Institute of Technology Physics Department

Corrections to Maxwell s equations for free space Invalidating the theory of relativity?!

Postulate 2: Light propagates through empty space with a definite speed (c) independent of the speed of the source or of the observer.

Name the object labelled B and explain its purpose.

Midterm Solutions. 1 1 = 0.999c (0.2)

Chapter 2: The Special Theory of Relativity. A reference fram is inertial if Newton s laws are valid in that frame.

ELECTROMAGNETIC WAVES WHAT IS LIGHT?

Space and Time Before Einstein. The Problem with Light. Admin. 11/2/17. Key Concepts: Lecture 28: Relativity

Special. Relativity. Todd Huffman. Steve

Galilean velocity transformation

2.1 The Ether and the Michelson-Morley Experiment

Relativity Albert Einstein: Brownian motion. fi atoms. Photoelectric effect. fi Quantum Theory On the Electrodynamics of Moving Bodies

The True Nature of the Special Relativity Light Clock. Copyright 2012 Joseph A. Rybczyk

Special Theory of Relativity. PH101 Lec-2

Chapter 26 Special Theory of Relativity

Chapter 1. Relativity 1

Physics 2D Lecture Slides Lecture 2. Jan. 5, 2010

Rotational Mechanics and Relativity --- Summary sheet 1

College Physics B - PHY2054C. Special & General Relativity 11/12/2014. My Office Hours: Tuesday 10:00 AM - Noon 206 Keen Building.

Massachusetts Institute of Technology Physics Department

Modern Physics. Relativity: Describes objects moving close to or at the speed of light (spaceships, photons, electrons )

The Michelson Morley experiment explained by means of a Higgs Field that rotates around the Solar System

Lecture 8 : Special Theory of Relativity

RELATIVITY. The End of Physics? A. Special Relativity. 3. Einstein. 2. Michelson-Morley Experiment 5

E = mc 2. Inertial Reference Frames. Inertial Reference Frames. The Special Theory of Relativity. Slide 1 / 63. Slide 2 / 63.

Before we work on deriving the Lorentz transformations, let's first look at the classical Galilean transformation.

ASTR 1040 Recitation: Relativity

Module 2: Special Theory of Relativity - Basics

Modern Physics. Luis A. Anchordoqui. Department of Physics and Astronomy Lehman College, City University of New York. Lesson III September 3, 2015

PHYSICS - CLUTCH CH 34: SPECIAL RELATIVITY.

Doppler shift and aberration for spherical electromagnetic waves

General Physics (PHY 2140)

2.1 Einstein s postulates of Special Relativity. (i) There is no ether (there is no absolute system of reference).

Chapter 26. Relativity

8.20 MIT Introduction to Special Relativity IAP 2005 Tentative Outline

Special relativity and light RL 4.1, 4.9, 5.4, (6.7)

Two postulates Relativity of simultaneity Time dilation; length contraction Lorentz transformations Doppler effect Relativistic kinematics

The Theory of Relativity

A. B. Lahanas University of Athens, Physics Department, Nuclear and Particle Physics Section, Athens , Greece

Module II: Relativity and Electrodynamics

Special Relativity. Mário Pimenta Udine, September 2009

Light and Matter(LC)

Lecture 2. Einstein Asserts Relativity. July 31, Ruled out the possibility that Earth is at rest relative to the ether

Relativity. Theory of Space & Time. by Dennis Dunn. Version date: Tuesday, 4 November :04. Time & Space... Time & Space... Time & Space...

Physics 2D Lecture Slides Sept 29. Vivek Sharma UCSD Physics

Chapter 12. Electrodynamics and Relativity. Does the principle of relativity apply to the laws of electrodynamics?

Chapter 34. Electromagnetic Waves

College Physics B - PHY2054C. Special Relativity 11/10/2014. My Office Hours: Tuesday 10:00 AM - Noon 206 Keen Building.

Relativity. Overview & Postulates Events Relativity of Simultaneity. Relativity of Time. Relativity of Length Relativistic momentum and energy

dt = p m, (2.1.1) dt = p

12:40-2:40 3:00-4:00 PM

Elements of Physics II

Announcements. Muon Lifetime. Lecture 4 Chapter. 2 Special Relativity. SUMMARY Einstein s Postulates of Relativity: EXPERIMENT

Rb, which had been compressed to a density of 1013

Introduction. Abstract

Special Relativity. Christopher R. Prior. Accelerator Science and Technology Centre Rutherford Appleton Laboratory, U.K.

Phys 2310 Wed. Sept. 20, 2017 Today s Topics

Relativity and Modern Physics. From Last Time. Preferred reference frame. Relativity and frames of reference. Galilean relativity. Relative velocities

Therefore F = ma = ma = F So both observers will not only agree on Newton s Laws, but will agree on the value of F.

The Nature of Light. Prof. Stephen Sekula 4/12/2010 Supplementary Material for PHY1308 (General Physics Electricity and Magnetism)

Inflation, vacua and the end of the Universe

Question from last week

Black Holes -Chapter 21

Einstein Toolkit Workshop. Joshua Faber Apr

OPTI510R: Photonics. Khanh Kieu College of Optical Sciences, University of Arizona Meinel building R.626

Michelson and Morley expected the wrong result from their experiment Cyrus Master-Khodabakhsh

CHAPTER 2 Special Theory of Relativity Part 2

Special Relativity: Derivations

Topics Covered in Chapter. Light and Other Electromagnetic Radiation. A Subatomic Interlude II. A Subatomic Interlude. A Subatomic Interlude III

Light and Other Electromagnetic Radiation

AQA Physics A-level Section 12: Turning Points in Physics

Interference it s importance not only in surveying

Chapter 37. Relativity. PowerPoint Lectures for University Physics, 14th Edition Hugh D. Young and Roger A. Freedman Lectures by Jason Harlow

Transcription:

Chapter-1 Relativity Part I RADIATION Radiation implies the transfer of energy from one place to another. - Electromagnetic Radiation - Light - Particle and Cosmic Radiation photons, protons, neutrons, electrons pions, etc. - Solar Radiation ionized electrons- plasma - Thermal Radiation - Infrared - Ultraviolet Radiation - - Ultrasonic Radiation - Ultrasound >50KHz Maxwell showed that the electromagnetic radiation (EM) can be explained by a plane wave E v = c B Plane Wave a b Energy transfer is given by the Poynting ector S = 1/µo E x B (W/m 2 ) W/m 2 (Energy/time)/area 1

DIPOLE ANTENNA Consider a dipole antenna emitting EM radiation. The E-field follows the charge up and down, The B-field circulates about the current I flow up and down. -Oscillator I + + + - - - B E i k j JOULE HEATING E = ( /d ) k B = ( µo I/ 2πR ) i d = length of the antenna R = radius of the antenna wire R S = (/d) ( µo I/ 2πR ) k x i = (/d) ( µo I / 2πR ) j Power emitted from the surface of the antenna P = 1/ µo {(/d) ( µo I/ 2πR )} 2πR d = I P =I (Watts) = IR (Ohm s Law) P = S x Area d 2

SPEED OF LIGHT EM Radiation travels with the speed of light c= 3.0 x 10 8 m/s Galileo believed the speed of light to be finite and attempted to measure it in the 17 th century but did not succeed. The speed of light was measured by Danish astronomer Ole Roemer in 1670 by using Jupiter s moon Io. Io makes one complete orbit around Jupiter every 1.76 days; As Jupiter moves away from earth in its orbit, Roemer predicted the arrival time of the new moon would be delayed by the time it took the light to travel the extra distance. He was right! v LIGHT " 300,000 km/s Most scientist believed that light needed a medium to propagate. 3

In 1856 Maxwell's equations represent one of the most elegant and concise ways to state the fundamentals of electricity and magnetism. He assumes the speed of light c to be constant. In 1888 Heinrich Hertz measured the speed of electromagnetic waves produced in his laboratory to be about 300,000 km/s strongly implying the light and electromagnetic waves are the same thing! Hertz Dipole Antenna Waves E Top scientist believe we are traveling through an ether and the speed of light must be affected! This is inconsistent with Maxwell s theory. The Laws of motions were the same throughout the universe, why not the laws of Electromagnetism?? Does light needed a medium to travel in?? Don t all waves need a medium to travel?? 4

ETHER HYPOTHESIS Our relative motion to the ether must be considered. =0 θ c Earth moves through a stationary Ether? Stars are fixed in place relative to this motion. Copernicon iew. Aberration of Starlight- Telescope tilt dependent on velocity through the either! ABERRATION OBSERED tanθ = E /c = 9.9 x 10-5 rdn Earth drags the Ether along? The earth is a special noncopernicon frame. No Aberration of Starlight - telescope tilt independent of the Earth s velocity. REJECTED BY EXPERIMENT!! 5

ETHER FLOW L c c = ( c 2-2 ) 1/2 c = c + c = c - t1 =2 L/( c 2-2 ) 1/2 t2 = L/(c+) + L/(c-) = [L(c-) + L(c+)] /( c 2-2 ) = 2Lc/ c 2 (1-2 /c 2 ) = (2L/c)/(1-2 /c 2 ) The river (ether) flows at speed. The time for round trip-1 across the river includes extra time to buck the current. The time fot trip-2 with and against the flow includes less time and then more time respectively. (see page 8-9) Δt = t1-t2 = (2L/c) / (1-2 /c 2 ) 1/2 - (2L/c)/(1-2 /c 2 ) = (2L/c) / { (1+1/2 2 /c 2 +..) (1+ 2 /c 2 +.) } = (2L/c) { 1/2 2 /c 2 +..} Δt = L 2 /c 3 +.. Light would take a small but different time to make trip-1 as compared to trip-2! 6

MICHELSON-MORLEY EXPERIMENT - 1887 Michelson invents the interferometer. Ether Wind Mirror-1 Michelson and Morley use the Interferometer to test the ether hypothesis circa 1887. No interference pattern was seen. Light took exactly the same Time to travel both paths! Light source Beam Splitter - L Mirror-2 ETHER HYPOTHESIS BUSTED - NO ETHER!! Interference Pattern or not? LORENTZ- FITZGERALD CONTRACTION In a last ditch effort Lorentz and Fitzerald propose that the apparatus has shrunk L->L/γ due to the ether by just the factor needed to save the ether. But not well accepted. β = /c Relative speed 0 1 γ = (1- β 2 ) -1/2 Lorentz factor 1 " 7

EINSTEIN s POSTULATES OF RELATIITY The Principle of Relativity- All physical laws have the same form in all inertial reference (non-accelerating) frames. -Electricity and Magnetism and Mechanics on the same footing. The Consistency of the Speed of Light- The speed of light c in the same in all inertial reference frames. How can this be?? c + B c c A Einstein proposes a picture of 4-dimensional spacetime- ( x y z t ) in which c = constant! Newton s Laws are shattered. Maxwell s Electromagnetic Theory survives. 8

LENGTH CONTRACTION ΔL= ΔL o /γ Observers traveling with relative speed β =/c will measure the length of a ruler in each others frame as being shorter than the length measured length when both at rest -> Proper Length Lo. L=Lo/γ L=Lo A B Lo β=/c Δt = γ Δt o TIME DILATION Observers traveling with relative speed β =/c will measure shorter time intervals in each others reference frame as compared to the time interval measure when both are at rest->proper Time Δto. Δt=γ to Δt=Δto B A β=/c 9

RELATIISTIC DOPPLER SHIFT Consider light of frequency fo being emitted from a source. An outside Observer will measure a shifted frequency coming from the source f = fo 1" # 1+ # f = fo 1+ " 1# " Source moving away from the Observer with relative speed β. RED SHIFT Source moving toward the Observer with relative speed β. BLUE SHIFT λ = f / c fo f <fo f >fo 600nm 500nm 400nm 10

LORENTZ TRANSFORMATION Einstein used the Lorentz transformation to form a 4-dimensional spacetime. Let x t denote the position and time in the laboratory system Let x t denote the position and time in the moving system. Lorentz Transform Derivative x = γ (x + vt) dx = γ (dx + v dt) t = γ (t + v x/c 2 ) dt = γ (dt + v dx/c 2 ) elocity Transform x = dx /dt = (dx + β cdt ) / (cdt + β dx ) Lab x ct Moving β=v /c x ct x'= x + v 1+ x v/c 2 v= relative velocity x = velocity of an object in the moving frame. x = velocity of the same object as measured in the Lab frame. x << c x = x + v NEWTON x = c (flashlight) x = c EINSTEIN Lab x =? β=v/c x=c 11

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback