General Physics (PHY 2140) Lecture 23 Modern Physics Relativity

Slides:

Advertisements

Similar presentations

Alternating Current Circuits and Electromagnetic Waves

Advertisements

Reference Frame. First Law  Newton’s first law says that with no net force there is no acceleration. Objects at restObjects at rest Objects at constant.

Relativity H2: Concepts and postulates of special relativity.

Cutnell/Johnson Physics 7th edition

Lecture Three. Michelson-Morley Experiment Principle of Relativity Laws of mechanics are the same in all inertial frames of reference. namely Laws of.

Special Theory of Relativity

PROJECTILE By, Dr. Ajay Kumar School of Physical Education D.A.V.V. Indore.

SPECIAL RELATIVITY Background (Problems with Classical Physics) Classical mechanics are valid at low speeds But are invalid at speeds close to the speed.

Capacitor: Let us consider the following circuit consisting of an ac voltage source and a capacitor. The current has a phase shift of +  /2 relative to.

Special theory of relativity

PH 301 Dr. Cecilia Vogel Lecture 1. Review Outline  PH  Mechanics  Relative motion  Optics  Wave optics  E&M  Changing E and B fields  Relativity.

Relativity Chapter 26. Introduction Major Physics accomplishments by the end of the 19 th century –Newton’s laws –Universal gravitation –Kinetic-molecular.

Relativity Chapter 1. Modern physics is the study of the two great revolutions in physics - relativity and quantum mechanics.

Einstein’s Laws. First Law Newton’s first law says that with no net force there is no acceleration. –Objects at rest –Objects at constant velocity If.

1 Relativity  H1: Introduction to relativity. 2 Motion is relative  Whenever we talk about motion, we must always specify the vantage point from which.

Fundamental Physics 3 (Modern Physics) Physics Education Department Sebelas Maret University Surakarta Physics Education Department - UNS1.

Chapter 26 Relativity.

Introduction to special relativity

Special Theory of Relativity

S-164 Countdown G minus 15 and counting. Relativity AP Physics Supplemental.

Chapter 26 Relativity. Basic Problems The speed of every particle in the universe always remains less than the speed of light Newtonian Mechanics is a.

Chapter R2 Synchronizing Clocks. Newtonian time Time was held to be universal. Clocks ran the same in all inertial systems. In these systems if one system.

Modern Physics (PC300) Class #2 Review Einstein and Newton The Ether question How to draw Events on a Spacetime diagram.

 Newtonian relativity  Michelson-Morley Experiment  Einstein ’ s principle of relativity  Special relativity  Lorentz transformation  Relativistic.

1 PH604 Special Relativity (8 lectures) Books: “Special Relativity, a first encounter”, Domenico Giulini, Oxford “Introduction to the Relativity Principle”,

Review of Classical Physics. By the late part of the 19th century, physics consisted of two great pillars: a) mechanics including thermodynamics and b)

1© Manhattan Press (H.K.) Ltd. 2.5 Relative velocity.

Relativity Introduction 14.1 Introduction Electrons can be accelerated to 0.99c using a potential difference of 3.1 MV According to Newtonian Mechanics,

Chapter 9 Relativity Basic Problems The formulation of Newtonian mechanics is based on our daily experience and observation. But, Newtonian mechanics.

Physics 1202: Lecture 18 Today’s Agenda Announcements: –Lectures posted on: –HW assignments, etc.

Introduction to special relativity

Chapter 16 Lecture One: Wave-I HW1 (problems): 16.12, 16.24, 16.27, 16.33, 16.52, 16.59, 17.6, Due.

Astronomy 1143 – Spring 2014 Lecture 18: Special Relativity.

Phy 107 Fall From Last Time Physics changed drastically in the early 1900’s Relativity one of the new discoveries –Changed the way we think about.

Introduction Classical Physics Laws: Mechanics (Newton), Electromagnetism (Maxwell), Optics, Fluids,.. Etc. Modern Physics: What do we mean? Are the laws.

Chapter 29 Physics of the Atom Physics of the Atom.

Chapter 26 Relativity. General Physics Relative Motion (Galilean Relativity) Chapter 3 Section 5

Chapter 39 Relativity. A Brief Overview of Modern Physics 20 th Century revolution 1900 Max Planck Basic ideas leading to Quantum theory 1905 Einstein.

Chapter 1 Relativity 1.

T. K. Ng (HKUST) The classical Universe Plan: This lecture: Review Pre-relativity/Quantum Mechanics picture of our physical universe You will learn some.

The lull before the storm Newton developed his theory of gravity in Maxwell unified electricity and magnetism in It was verified experimentally.

Relativity. Historical Development 1600s Newton discovered his laws of mechanics Applied to a wide variety of problems over the next two decades Worked.

Chapter 24 Classical Theory of Electromagnetic Radiation.

Course Business: PHYS344 Lecture 7 3 rd problem set due next Wednesday, Sept. 17 th in class From Krane Chapter 2: 39, 40, 41, 42, 47, 48, 49, 50, 53,

Special Relativity (Math)  Reference from Tipler chapter 39-1 to 39-3  Newtonian relativity  Einstein’s postulates  Lorentz transformation  Time dilation.

V Galileo: The object would land at the base of the mast. Therefore, an observer on a ship, moving (with respect to land at velocity v) will observe the.

PHYS344 Lecture 8 Problem set 2 due on Wednesday the 16 th in class. Krane, Chapter 2: Problems 25, 26, 32, 33, 37, 39, 40, 41, 42 Finish Relativity today,

Lecture 3: PHYS 344 Homework #1 Due in class Wednesday, Sept 9 th Read Chapters 1 and 2 of Krane, Modern Physics Problems: Chapter 2: 3, 5, 7, 8, 10, 14,

PHYS 1444 – Section 004 Lecture #21

SYLLABUS AC Fundamentals AC Analysis AC power Three phase circuit

Reading Quiz Most of the power released by a hydrogen bomb comes from which of the following? nuclear fusion nuclear fission TNT cold fusion.

Lecture 19 Electromagnetic Waves.

UNIT-III RIGID BODY DYNAMICS

Lecture 19 Relativity Chapter 26.1  26.5 Outline

PHYS 3313 – Section 001 Lecture #5

General Physics (PHY 2140) Lecture 27 Modern Physics Quantum Physics

General Physics (PHY 2140) Lecture 12 Electricity and Magnetism

General Physics (PHY 2140) Lecture 28 Modern Physics Quantum Physics

General Physics (PHY 2140) Lecture 24 Modern Physics Relativity

General Physics (PHY 2140) Lecture 25 Modern Physics Relativity

Late 1800’s: Physics was triumphant!

General Physics (PHY 2140) Lecture 22 Electricity and Magnetism

Einstein’s Relativity - Part 1

Lecture 22 Special theory of relativity

The Relativistic Universe

Chapter 26 Relativity.

“The relativity theory arose from necessity, from serious and deep contradictions in the old theory from which there seemed no escape. The strength.

PHYS 3700 Modern Physics Prerequisites: PHYS 1212, MATH Useful to have PHYS 3900 or MATH 2700 (ordinary differential equations) as co-requisite,

Special Relativity Chapter 1-Class2

PHYS 3313 – Section 001 Lecture #5

Presentation transcript:

General Physics (PHY 2140) Lecture 23 Modern Physics Relativity The principle of relativity The speed of Light http://www.physics.wayne.edu/~apetrov/PHY2140/ Chapter 26 9/17/2018

Lightning Review Last lecture: AC circuits and EM waves EM waves Spectrum of EM radiation Review Problem: The phasor diagrams below represent three oscillating emfs having different amplitudes and frequencies at a certain instant of time t = 0. As t increases, each phasor rotates counterclockwise and completely determines a sinusoidal oscillation. At the instant of time shown, the magnitude of E associated with each phasor given in ascending order by diagrams 1. (a), (b), and (c). 4. (c), (a), and (b). 2. (a), (c), and (b). 5. none of the above 3. (b), (c), and (a). 6. need more information 9/17/2018

Reminder (for those who don’t read syllabus) Reading Quizzes (bonus 5%): It is important for you to come to class prepared, i.e. be familiar with the material to be presented. To test your preparedness, a simple five-minute quiz, testing your qualitative familiarity with the material to be discussed in class, will be given at the beginning of some of the classes. No make-up reading quizzes will be given. There could be one today… … but then again… 9/17/2018

Review problem: RLC circuit In a certain RLC circuit, the rms current is 6.0 A, the rms voltage is 240 V, and the current leads the voltage by 53°. (a) What is the total resistance of the circuit? (b) Calculate the total reactance XL – XC . 9/17/2018

Recall that dissipated power is Given: RLC circuit f= -53˚ In a certain RLC circuit, the rms current is 6.0 A, the rms voltage is 240 V, and the current leads the voltage by 53°. (a) What is the total resistance of the circuit? (b) Calculate the total reactance XL – XC . Recall that dissipated power is Given: RLC circuit f= -53˚ VRMS = 240 V IRMS = 5.0 A Find: R=? XL-XC=? Now that we know the resistance, the total reactance is 9/17/2018

A Brief Overview of Modern Physics 20th Century revolution 1900 Max Planck Basic ideas leading to Quantum theory 1905 Einstein Special Theory of Relativity 21st Century Story is still incomplete 9/17/2018

Basic Problems The speed of every particle in the universe always remains less than the speed of light Newtonian Mechanics is a limited theory It places no upper limit on speed It is contrary to modern experimental results Newtonian Mechanics becomes a specialized case of Einstein’s Theory of Special Relativity When speeds are much less than the speed of light 9/17/2018

Galilean Relativity Choose a frame of reference Necessary to describe a physical event According to Galilean Relativity, the laws of mechanics are the same in all inertial frames of reference An inertial frame of reference is one in which Newton’s Laws are valid Objects subjected to no forces will move in straight lines 9/17/2018

Galilean Relativity – Example A passenger in an airplane throws a ball straight up It appears to move in a vertical path The law of gravity and equations of motion under uniform acceleration are obeyed 9/17/2018

Galilean Relativity – Example, cont There is a stationary observer on the ground Views the path of the ball thrown to be a parabola The ball has a velocity to the right equal to the velocity of the plane 9/17/2018

Galilean Relativity – Example, conclusion The two observers disagree on the shape of the ball’s path Both agree that the motion obeys the law of gravity and Newton’s laws of motion Both agree on how long the ball was in the air Conclusion: There is no preferred frame of reference for describing the laws of mechanics 9/17/2018

Galilean Relativity – Limitations Galilean Relativity does not apply to experiments in electricity, magnetism, optics, and other areas Results do not agree with experiments The observer should measure the speed of the pulse as v+c Actually measures the speed as c 9/17/2018

Luminiferous Ether 19th Century physicists compared electromagnetic waves to mechanical waves Mechanical waves need a medium to support the disturbance The luminiferous ether was proposed as the medium required (and present) for light waves to propagate Present everywhere, even in space Massless, but rigid medium Could have no effect on the motion of planets or other objects 9/17/2018

Verifying the Luminiferous Ether Associated with an ether was an absolute frame where the laws of e & m take on their simplest form Since the earth moves through the ether, there should be an “ether wind” blowing If v is the speed of the ether relative to the earth, the speed of light should have minimum or maximum values depending on its orientation to the “wind” 9/17/2018