Presentation is loading. Please wait.

Presentation is loading. Please wait.

Physics 2170 – Spring 20091 Galilean relativity Homework assignment will be posted on the web site by 5pm today.

Published byDelilah Morrison Modified over 8 years ago

Similar presentations

Presentation on theme: "Physics 2170 – Spring 20091 Galilean relativity Homework assignment will be posted on the web site by 5pm today."— Presentation transcript:

1 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20091 Galilean relativity Homework assignment will be posted on the web site by 5pm today. First problem solving session will be Tuesday 3-4 and 5-6. Homework is due next Wednesday at 12:50pm in wood box inside physics help room (G2B90). Web site www.colorado.edu/physics/phys2170 / contains lots of info, e.g. the course calendar has reading assignments and lecture notes. www.colorado.edu/physics/phys2170 / Announcements: Today we will cover Galilean relativity and the special relativity postulates. Galileo Galilei (1564—1642):

2 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20092 Compare two reference frames (in one-dimension)... -3 -2 -1 0 1 2 3... Frame S has origin here.... -3 -2 -1 0 1 2 3... Frame S′ has origin here, at x = 3 m according to reference frame S. The frame is shifted down so you can read both of them.

3 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20093 Compare two reference frames (in one-dimension)... -3 -2 -1 0 1 2 3... Observer in S measures ball at x = 2m. Observer in S′ measures ball at x′ = −1 m. Two different observers measure two different results for the location of the ball And they are both correct!

4 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20094 Inertial reference frames Imagine a train car (it’s always a train!) moving with constant velocity with respect to the ground. The train runs smoothly, so that you can’t tell it’s moving by feeling the bumps on the track. V

5 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20095 Inertial reference frames Now, you’re playing pool on the train. The balls roll in straight lines on the table (assuming you put no English on them). In other words, the usual Newtonian law of inertia still holds. The frame as a whole is not accelerating. V

6 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20096 As I’m lining up my shot, the train slows and approaches the station. I have not touched the cue ball. What does it do? A.Rolls to the front of the train B.Rolls to the back of the train C.Remains motionless D.Grows legs and runs around the pool table V This frame is no longer inertial. It is a non-inertial frame. Clicker question 1 Set frequency to DA

7 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20097 Comparing inertial frames... -3 -2 -1 0 1 2 3... v Here are two inertial reference frames, moving with respect to one another. According to S, S′ is moving to the right, with v = 1 m/s.

8 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20098 Comparing inertial frames Here are two inertial reference frames, moving with respect to one another. According to S′, S is moving to the left, with v = −1 m/s.... -3 -2 -1 0 1 2 3... v Both S′ and S are correct. It’s a question of reference frames

9 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 20099 Q. What is an inertial reference frame? A. Objects in inertial frames obey the law of inertia A. Inertial frames travel at constant velocity (can be 0) Q. Which of the following is not an inertial reference frame? A. A car traveling at 100 mph down a straight road B. A car traveling at 20 mph around a corner C. A car in the process of crashing into a concrete barricade D. More than one of the above E. None of the above In A objects at rest stay at rest and reference frame velocity is constant Equivalent statements In B and C objects at rest will move because reference frame velocity is not constant: centripetal acceleration in B and linear acceleration in C. Clicker question 2 Set frequency to DA

10 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200910 Comparing inertial frames Think about two frames that coincide at t=0.... -3 -2 -1 0 1 2 3... v Answer: Two local observers are there to measure the facts. How do we know??

11 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200911 Comparing inertial frames... -3 -2 -1 0 1 2 3... v At time t = 0, the two frames coincide. A ball is at rest in frame S. Its position is x = 2 m in S x′ = 2 m in S′ How do we know?? Two more local observers: One in S One in S′

12 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200912 Comparing inertial frames Frame S′ is moving to the right (relative to S) at v = 1 m/s. At time t = 3 sec, the position of the ball is x = 2 m in S x′ = −1 m in S’... -3 -2 -1 0 1 2 3... v How do we know??YUP! Good thing it’s a big universe…

13 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200913 Definition of event Where something is depends on when you check on it (and on the movement of your own reference frame). Definition: an event is a measurement of where something is and when it is there. Events are measurements in 4D space-time made by local observers on the scene.

14 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200914 Comparing inertial frames Q. At time 0, the ball was at x = x′. At time t later, the ball is still at x in S. Where is it in S′? A) x′ = xB) x′ = x + vtC) x′ = x − vt... -3 -2 -1 0 1 2 3... v Clicker question 3 Set frequency to DA

15 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200915 Galilean transformations If S′ is moving with speed v in the positive x direction relative to S, then an object’s coordinates in S′ are Note: in Galilean relativity, time is measured the same in both reference frames.

16 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200916 More Galilean relativity... -3 -2 -1 0 1 2 3... v Same thing, but now the ball is moving in S, too, with a velocity of –2 m/s. Q. Is the ball faster or slower, as measured in Frame S′? A) fasterB) slowerC) same speed Clicker question 4 Set frequency to DA

17 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200917 Galilean velocity transformation If an object has velocity u in frame S, then its position, x, changes with time, t. And if frame S′ is moving with velocity v relative to frame S, then the position of object in S′ is: Velocity of object in S′ is therefore: This is the classical velocity-addition formula which is simply vector addition Two observers in different reference frames can give a different description of the same physical fact, in this case the velocity and position of the ball. And they’re both right!

18 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200918 From Newton’s 2 nd law ( ) this means the object accelerates in frame S. Dynamics Now let’s apply a force to the object in frame S. We still have an object moving with velocity u in inertial frame S and an inertial frame S′ which moves at a constant velocity v with respect to frame S. What is the acceleration in frame S′? So, although the positions and velocities can be different in different inertial frames, the acceleration and forces are the same

19 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200919 Galilean relativity In Galilean relativity, the laws of mechanics (good old F=ma and everything else in Physics 1110) are the same in any inertial frame of reference. What about the physics of electromagnetism? Does E&M depend on which inertial frame you are in?

20 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200920 Q. A magnetic field points into the board. A wire loop moves into the field with velocity v. An electron in the wire feels a Lorentz force. What happens in the wire? A. nothing B. a current flows clockwise C. a current flows counterclockwise v Clicker question 5 Set frequency to DA Remember the right hand rule and that current is the direction a positive charge would move

21 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200921 Q. Now the loop is stationary and the magnetic field moves into the loop. What happens in the wire? A. nothing B. a current flows clockwise C. a current flows counterclockwise v Clicker question 6 Set frequency to DA Faraday’s law states: The magnetic flux through the loop is changing which induces an electric field and thereby drives a current.

22 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200922 OK, so which is correct? In the reference frame of the magnetic field, an observer thinks the electron feels a magnetic force. In the reference frame of the electron, an observer thinks the electron feels an (induced) electric force. And they’re both right! Einstein’s first postulate for special relativity is: Postulate 1: All the laws of physics are the same in all inertial reference frames. Not just mechanics but all physics laws

23 http://www.colorado.edu/physics/phys2170/ Physics 2170 – Spring 200923 From Maxwell’s equations, light is an electromagnetic wave with speed: Conventional wisdom: Waves must have a medium to travel in – sound in air, tsunami in water, etc. Therefore it was believed light traveled in stationary ether where the speed was 299792458 m/s. If the ether exists, it is an incompressible, invisible, and non-viscous medium which permeates the universe (like The Force).

Download ppt "Physics 2170 – Spring 20091 Galilean relativity Homework assignment will be posted on the web site by 5pm today."

Similar presentations

Classical Relativity Galilean Transformations

Classical Relativity Galilean Transformations
Chapter R1 The Principle of Relativity Chapter R1 problems due Wednesday. R1B1, B2, and S.1.

Chapter R1 The Principle of Relativity Chapter R1 problems due Wednesday. R1B1, B2, and S.1.
Relativity H2: Concepts and postulates of special relativity.

Relativity H2: Concepts and postulates of special relativity.
Cutnell/Johnson Physics 7th edition

Cutnell/Johnson Physics 7th edition
1 PH300 Modern Physics SP11 1/25 Day 4: Questions? Galilean Relativity Michelson-Morley Experiment Postulates of Special Relativity Next Time: Time dilation.

1 PH300 Modern Physics SP11 1/25 Day 4: Questions? Galilean Relativity Michelson-Morley Experiment Postulates of Special Relativity Next Time: Time dilation.
Frames of Reference and Relativity

Frames of Reference and Relativity
Special Theory of Relativity

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

SPECIAL RELATIVITY Background (Problems with Classical Physics) Classical mechanics are valid at low speeds But are invalid at speeds close to the speed.
Physics 3 for Electrical Engineering Ben Gurion University of the Negev www.bgu.ac.il/atomchipwww.bgu.ac.il/atomchip, www.bgu.ac.il/nanocenterwww.bgu.ac.il/nanocenter.

Physics 3 for Electrical Engineering Ben Gurion University of the Negev
Speed of Light How fast is the speed of light? –depends on material: – in vacuum, c = 3 x 10 8 m/s What is this speed relative to? What is the speed of.

Speed of Light How fast is the speed of light? –depends on material: – in vacuum, c = 3 x 10 8 m/s What is this speed relative to? What is the speed of.
Announcements 11/22/11 Prayer Lab 10, HW 36 due tonight Typo in problem 36-1: the left hand side of the equation should be and not Exam 3 starts Monday.

Announcements 11/22/11 Prayer Lab 10, HW 36 due tonight Typo in problem 36-1: the left hand side of the equation should be and not Exam 3 starts Monday.
Announcements 11/23/10 Prayer Exam 3 review session: Monday 5 - 6:30 pm, room C261 Exam 3 starts Tuesday after break Lab 10 due Tuesday after break.

Announcements 11/23/10 Prayer Exam 3 review session: Monday 5 - 6:30 pm, room C261 Exam 3 starts Tuesday after break Lab 10 due Tuesday after break.
Special theory of relativity

Special theory of relativity
PH 301 Dr. Cecilia Vogel Lecture 1. Review Outline  PH 201-3  Mechanics  Relative motion  Optics  Wave optics  E&M  Changing E and B fields  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.
Phy 213: General Physics III Chapter 30: Induction & Inductance Lecture Notes.

Phy 213: General Physics III Chapter 30: Induction & Inductance Lecture Notes.
Announcements 4/1/11 Prayer Labs 9, 10 due tomorrow Exam 3 starts tomorrow “So, Dr. Colton, what’s on the exam?”

Announcements 4/1/11 Prayer Labs 9, 10 due tomorrow Exam 3 starts tomorrow “So, Dr. Colton, what’s on the exam?”
Chapter 37 Special Relativity. 37.2: The postulates: The Michelson-Morley experiment Validity of Maxwell’s equations.

Chapter 37 Special Relativity. 37.2: The postulates: The Michelson-Morley experiment Validity of Maxwell’s equations.
Special Relativity Physics 1161: Lecture 35 Sections 29-1 – 29-6.

Special Relativity Physics 1161: Lecture 35 Sections 29-1 – 29-6.
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.
Special Theory of Relativity

Special Theory of Relativity

Similar presentations

Ads by Google