Developing the Postulates of Special Relativity in Group Discussions

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#NSTA17 (Distribution copy with images removed) Developing the Postulates of Special Relativity in Group Discussions Last updated: 4/1/2017 Dr. Igor Woiciechowski Associate Professor of Mathematics Alderson Broaddus University Rosa Villastrigo Program Manager Johns Hopkins University Center for Talented Youth Dr. Muhammad Ali Yousuf * Assistant Program Manager Johns Hopkins University Center for Talented Youth mali@jhu.edu

What we are going to discuss Some basic definitions needed The course at CTY Review of Galilean Relativity Concept of Aether Michelson Morley Experiment Einstein s Solution Questions to start class discussion Selected videos, etc.

Some names and definitions before we start

Four people you need to know: Galileo, Michelson, Morley & Einstein and of course, Garfield! Garfield Image Removed

AAY1 Frames of Reference A Frames of Reference is a system of geometric axes in relation to which measurements can be made. For example, in two dimensions:

Slide 5 AAY1 Ali Ali Yousuf, 3/24/2017

Inertial Frames Inertial frames are systems moving at constant speed. Which means if you measure acceleration inside that system, it will be zero. A car moving with constant speed on a straight road is a good approximation.

Y O X A reference frame fixed in a car but moving at constant speed v with respect to the garage Y A reference frame fixed in the garage Z (Z is going out of the plane) O X Z After a few seconds, car has moved forward

The Course at CTY At Johns Hopkins CTY we have learned that some of the ideas of the theory can be brought to any physics classroom where students are wellmotivated and willing to do some thinking of their own. Course Prerequisite: Algebra II, trigonometry and either CTY s Fast Paced High School Physics or at least a B in conceptual physics or high school physics.

Review of Galilean Relativity One of the ways is to start with the key concept of the classical mechanics, Galilean Relativity Principle. It states that laws of mechanics are the same in all frames of reference moving with constant velocities relative to each other. Garfield Image Removed you never told me what constant velocity means?

Review of Galilean Relativity The Galilean Relativity Principle became the foundation for the Three Laws of Mechanics formulated by Isaac Newton. Garfield Image Removed Ya, I know. Like an object at rest likes to remain at rest, blah blah

Review of Galilean Relativity An important consequence of the Galilean relativity is the law of velocity addition. Image removed A (stationary man on earth), B (moving aircraft), C (something moving towards the cockpit in the aircraft), the velocity vector u of C relative to A is the sum of the velocity u of C relative to B plus the velocity v of B relative to A: u=v+u

Review of Galilean Relativity It leads to the famous problem of crossing a river and traveling downstream and back with the flow of water. Students soon conclude that the traveling time is different for the two paths which are equal in length. Let s see how Hmm.

A boat is travelling downstream at 5 km/h relative to the shore. If there is a current of 7 km/h which direction the boat is moving with respect to water? What is the boat s speed relative to Garfield?

A boat travelling upstream at 5 km/h relative to the shore. If there is a current of 7 km/h which direction the boat is moving with respect to water? What is the boat s speed relative to the water?

What will happen now? Ask your teacher, I am not in a mood today Garfield Image Removed

Round trip in stationary water (like a lake)

Round trip in a river flowing towards right. What will happen now?

Question Then which boat moved more distance? Which will return late to the shore? Garfield Image Removed Why is everything moving here leave me alone

And now comes Aether According to ancient and medieval science, aether, also spelled æther or ether, is the material that fills the region of the universe above the terrestrial sphere. The concept of aether was used in several theories to explain some natural phenomena, such as the traveling of light and gravity. Who said it fills everything?

Michelson-Morley Experiment The Michelson Morley experiment (first performed in 1887) was designed to test this conclusion for light that presumably propagating in the flow of ether, hypothetical medium filling the entire Universe.

Stationary Interferometer See the animation here http://www.brainflux.org/physics/special_relati vity/michelson_morley/

Interferometer Moving Through the Aether Garfield Image Removed You see, that s why I don t move See the animation here http://www.brainflux.org/physics/special_relati vity/michelson_morley/ http://www.brainflux.org/physics/special_relativity/michelson_morley/

See wave interference here: http://sdsu physics.org/physics180/physics180b/topics/light/phys180bch24.html

Michelson-Morley Experiment Ultimately, the experiment indicates that there is no time difference for the returning light pulses traveling in the perpendicular directions.

Einstein s Solution Einstein suggested the following two axioms explaining the negative experimental result: 1) a uniform motion through ether is undetectable, 2) the light speed does not depend on the speed of the light source. Garfield Image Removed Le me take notes

The Two Postulates On June 30, 1905 Einstein formulated the two postulates of special relativity: 1. The Principle of Relativity: The laws of physics are the same in all inertial frames of reference. 2. The Constancy of Speed of Light in Vacuum: The speed of light in vacuum has the same value c in all inertial frames of reference. So I m relatively sleeping and relatively awake. Right? Garfield Image Removed

Einstein s Solution Note that the speed of light in vacuum c = 186000 miles per second is so enormous that we do not notice a delay between the transmission and reception of electromagnetic waves under normal circumstances. Garfield Image Removed Can t u make it slower I am trrrying to catch up

Garfield Image Removed Questions to start the discussion: Start lesson from the question How do you know you are moving or are at rest? You can give several examples: You are in a car moving at constant speed, you are in a car stopped at the traffic signal, you are sitting in the cabin of an airplane which is cruising, etc. Convince students that there is no way to tell without looking out of the window, or identifying a frame of reference. This is what the Principle of Relativity says.

Questions to start the discussion: As shown below, a car is first at rest with respect to a house and their coordinates systems are identical. If the car now starts moving with constant speed (hence is an inertial frame) with respect to the house, which quantities must be the same in the two inertial frames of reference (house and car)? Which of the quantities may not be the same? Speed of an object Electric charge of an electron Kinetic energy of a particle Time interval between two events Order of the elements in the Periodic Table Garfield Image Removed

More questions A jet plane travelling horizontally at 1200 km/h relative to the ground fires a rocket forwards at 1100 km/h relative to itself. What is the speed of the rocket relative to the ground? Add a slide with laser

Garfield Image Removed More questions A number of follow up questions can now be asked to prepare for the next class What does the Galilean Relativity Principle state? How can you formulate the Rule of Addition of Velocities? (You can t not so easily!). The Gallilean one in intuitive:

More questions Galilean Relativity: In general for three objects A (stationary), B (moving), C (something falling on the moving object) the velocity vector u of C relative to A is the sum of the velocity u of C relative to B plus the velocity v of B relative to A: u=v+u Special Relativity:

Garfield Image Removed Fun Facts (Student Research Projects)

GPS Navigation Do you know that in order for your car s GPS navigation to function as accurately as it does, satellites have to take relativistic effects into account? Project: Ask students to explore this and find why Einstein s theories play a role here. In particular: How does the satellite locate your GPS? Is one satellite enough? If not, what is the minimum number of satellite to locate your longitude and latitude? Which department in USA controls this communication? Are these satellites military or civilian? (Send an email to me at mali@jhu.edu to get the full project description)

Your old TV Just a few years ago most televisions and monitors had cathode ray tube screens. A cathode ray tube works by firing electrons at a phosphor surface with a big magnet. Each electron makes a lighted pixel when it hits the back of the screen. The electrons fired out to make the picture move at up to 30 percent the speed of light. Relativistic effects are noticeable, and when manufacturers shaped the magnets, they had to take those effects into account. (Send an email to me at mali@jhu.edu to get the full project description) http://www.livescience.com/58245 theory of relativity in real life.html

Gold s has a yellow color Why so? What is the role of Einstein here? The project combines Chemistry, Physics and Art! (Send an email to me at mali@jhu.edu to get the full project description) http://www.livescience.com/58245 theory of relativity in real life.html

You can download all the material from http://pages.jh.edu/~maliyou1/lessonplans.htm Or by scanning the QR Code below:

References Garfield Image Removed Albert Einstein's Theory of Relativity, https://www.youtube.com/watch?annotation_id=annotation_1846 550411&feature=iv&src_vid=qhVgIW4_ AQ&v=ev9zrt lec Einstein's Relativistic Train in a Tunnel Paradox: Special Relativity, https://www.youtube.com/watch?v=xrqj88zqzjg Twin Paradox in General Relativity, https://www.youtube.com/watch?annotation_id=annotation_3823 805945&feature=iv&src_vid=Xrqj88zQZJg&v=bjHLboK2M1g At the speed of light, what would you see?, https://www.youtube.com/watch?annotation_id=annotation_8500 87149&feature=iv&src_vid=bjHLboK2M1g&v=BoUc4 q4ibc Trying to go faster than the speed of light, https://www.youtube.com/watch?annotation_id=annotation_3593 779865&feature=iv&src_vid=BoUc4 q4ibc&v=qhvgiw4_ AQ http://www.animatedimages.org/cat garfield 1214.htm

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