Presentation is loading. Please wait.

Presentation is loading. Please wait.

Announcements Homework Set 6: Schaum’s Outline Chapter 7 # 7.17, 7.18, 7.19, 7.24 & 7.25. Plus: derive the three velocity transformation equations for.

Published byCarmella Holmes Modified over 9 years ago

Similar presentations

Presentation on theme: "Announcements Homework Set 6: Schaum’s Outline Chapter 7 # 7.17, 7.18, 7.19, 7.24 & 7.25. Plus: derive the three velocity transformation equations for."— Presentation transcript:

1 Announcements Homework Set 6: Schaum’s Outline Chapter 7 # 7.17, 7.18, 7.19, 7.24 & 7.25. Plus: derive the three velocity transformation equations for u x ’ u y ’ and u z ’ starting with the basic Lorentz transformations for x’, y’, z’ and t’ and the definition of velocity: v’ x =  x’/  t’ v’ y =  y’/  t’ and v’ z =  z’/  t’ Project abstracts are due today! I will accept them via email as long as they are sent by midnight. You can also post it to the Dropbox in the class D2L shell. Remember, it counts 1.5% of your course grade!

2 Velocity Transformations Given the velocity u of a particle with respect to observer O in the unprimed system. With the reverse transforms from primed to unprimed These can be derived from the basic transformation equations and a the definition of velocity:

3 Which is O, which is O’ and which is the particle? A man at the front end of a rocket ship moving past the Earth at a speed of 0.9c fires a bullet from a supergun towards the back of the rocket. He measures the speed of the bullet to be 0.5c. What does an observer on the ground measure the speed of the bullet to be? a)The rocket is O, the Earth is O’ and the bullet is the particle. b)The Earth is O, the rocket is O’ and the bullet is the particle c)The bullet is O, the rocket is O’ and the Earth is the particle d)Any of the above will work, although some are less convenient than others.

4 Not quite so obvious Rocket A is moving to the west at 0.9c and rocket B is moving to the east at 0.7c with respect to the Earth. What is the speed of rocket A with respect to rocket B? a)Rocket A is O, rocket B is O’ and the Earth is the particle. b)Rocket B is O, rocket A is O’ and the Earth is the particle. c)The Earth is O, rocket A is O’ and rocket B is the particle. d)The Earth is O, rocket B is O’ and rocket A is the particle. e)Any of the above will work but two are much easier than the others.

5 Note that transverse velocities are affected In the Galilean transformation, only u’ x is affected. The transverse velocities are the same: u’ y = u y and u’ z = u z. That is not the case for Lorentz transformations. This means that the angle at which something is moving is different for different reference frames.

6 Relativistic Doppler Effect For the general case where the source is moving at some angle  with respect to the observer If the motion of the source is directly towards or away from the observer then If the source is moving transverse to the observer

7 Watch Mechanical Universe and Beyond: Velocity and Time

Download ppt "Announcements Homework Set 6: Schaum’s Outline Chapter 7 # 7.17, 7.18, 7.19, 7.24 & 7.25. Plus: derive the three velocity transformation equations for."

Similar presentations

Relativistic mechanics

Relativistic mechanics
Relativistic Momentum In classical mechanics, the momentum of a particle is defined as a product of its mass and its velocity,. In an isolated system of.

Relativistic Momentum In classical mechanics, the momentum of a particle is defined as a product of its mass and its velocity,. In an isolated system of.
Cutnell/Johnson Physics 7th edition

Cutnell/Johnson Physics 7th edition
In this chapter we will learn about the kinematics (displacement, velocity, acceleration) of a particle in two or three dimensions. Projectile motion Relative.

In this chapter we will learn about the kinematics (displacement, velocity, acceleration) of a particle in two or three dimensions. Projectile motion Relative.
The Lorentz transformation equations Once again Ś is our frame moving at a speed v relative to S.

The Lorentz transformation equations Once again Ś is our frame moving at a speed v relative to S.
Announcements 11/30/11 Prayer Henry Lorentz Exam 3 ongoing… Project Show & Tell. Email me by tonight (midnight). I will pick people tomorrow and let you.

Announcements 11/30/11 Prayer Henry Lorentz Exam 3 ongoing… Project Show & Tell. me by tonight (midnight). I will pick people tomorrow and let you.
Physics 218 Lecture 6 Dr. David Toback Physics 218, Lecture VI.

Physics 218 Lecture 6 Dr. David Toback Physics 218, Lecture VI.
Lorentz Transformation

Lorentz Transformation
1 Length contraction Length measured differs from frame to frame – another consequence of relativistic effect Gedankan experiment again!

1 Length contraction Length measured differs from frame to frame – another consequence of relativistic effect Gedankan experiment again!
PHY 1371Dr. Jie Zou1 Chapter 39 Relativity. PHY 1371Dr. Jie Zou2 Outline The principle of Galilean relativity Galilean space-time transformation equations.

PHY 1371Dr. Jie Zou1 Chapter 39 Relativity. PHY 1371Dr. Jie Zou2 Outline The principle of Galilean relativity Galilean space-time transformation equations.
Announcements 12/1/10 Prayer Exam 3 ongoing Friday’s lecture: no reading assignment Project Show & Tell – only 3 volunteers so far. Up to 15 extra credit.

Announcements 12/1/10 Prayer Exam 3 ongoing Friday’s lecture: no reading assignment Project Show & Tell – only 3 volunteers so far. Up to 15 extra credit.
Physics 218, Lecture VI1 Physics 218 Lecture 6 Dr. David Toback.

Physics 218, Lecture VI1 Physics 218 Lecture 6 Dr. David Toback.
The laws of physics are the same in any inertial (non- accelerating) frame of reference Galileo & Einstein would both agree (at terrestrial speeds.) F=ma.

The laws of physics are the same in any inertial (non- accelerating) frame of reference Galileo & Einstein would both agree (at terrestrial speeds.) F=ma.
PHY 1371Dr. Jie Zou1 Chapter 39 Relativity (Cont.)

PHY 1371Dr. Jie Zou1 Chapter 39 Relativity (Cont.)
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.
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.
Announcements 4/8/11 Prayer Wednesday next week: Project Show & Tell a. a.5 extra credit points for volunteering, 10 points if I pick you b. b.Applications.

Announcements 4/8/11 Prayer Wednesday next week: Project Show & Tell a. a.5 extra credit points for volunteering, 10 points if I pick you b. b.Applications.
Qwizdom questions for Feb. 1, 2010. 26. If the north poles of two bar magnets are brought close to each other, the magnets will A. attract B. repel.

Qwizdom questions for Feb. 1, If the north poles of two bar magnets are brought close to each other, the magnets will A. attract B. repel.
NJIT Physics 320: Astronomy and Astrophysics – Lecture IV Carsten Denker Physics Department Center for Solar–Terrestrial Research.

NJIT Physics 320: Astronomy and Astrophysics – Lecture IV Carsten Denker Physics Department Center for Solar–Terrestrial Research.
Module 5Relativity of Velocity and Acceleration1 Module 5 Relativity of Velocity and Acceleration The velocity transforms follow directly from the Lorentz.

Module 5Relativity of Velocity and Acceleration1 Module 5 Relativity of Velocity and Acceleration The velocity transforms follow directly from the Lorentz.

Similar presentations

Ads by Google