1 / 16

Gravity as Curved Space Article

Einstein’s Theory of Special Relativity. Video Why?. Gravity as Curved Space Article. http:// Video intro. Read Ch 15 Start # 1-15 p 230. Einstein’s Theory of Special Relativity. Space and time exist inside the universe. Together, they make up what Einstein called “ Space-time .”.

Download Presentation

Gravity as Curved Space Article

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Einstein’s Theory of Special Relativity Video Why? Gravity as Curved Space Article http://Video intro Read Ch 15 Start # 1-15 p 230

  2. Einstein’s Theory of Special Relativity Space and time exist inside the universe. Together, they make up what Einstein called “Space-time.” Time is a 4th dimension in space-time.

  3. Relativity? • Frames of reference are “relative.” • Video:classical relativity • Einstein’s theory deals with motion nearing the speed of light.

  4. Two fundamental postulates must be stated: • All the laws of nature hold true in uniformly moving frames of reference. 2. The speed of light is constant 3 x 108 m/s. (Einstein also stated that no object can travel faster than the speed of light) video explanation

  5. At normal rates, we travel through time and space. Example: If we drive to Wisconsin, we are traveling a distance in space and we are also traveling through time because time goes by in order to get there. Our watches show a later time when we get there. Minneapolis Eau Claire

  6. BUT according to Einstein, as we travel faster and faster, we alter the rate at which time goes by. This is called “Time Dilation.” If we travel as fast as the speed of light, for example, NO TIME will go by! We will be traveling only in space. Picture this: Clock reads 2 pm If we are traveling at the same speed as the light that allows us to read the clock, the clock will read 2 pm when it gets to our eyes. But we will have traveled millions of miles through space by then.

  7. Another way to look at it (p 219) A light ray sent straight up reflects on a mirror. The same light ray observed from an observer outside must travel a greater distance, and therefore, takes more time.

  8. Einstein has an exact equation that helps verify this idea. Tstationary = tobserver 1 – (v2/c2) Let’s try it: Say we are traveling at a rate of one half the speed of light for one hour according to our watch. On earth, the time that passes will be greater. How much?

  9. Try the equation again – this time, you are traveling at 0.9 times the speed of light.

  10. Einstein’s Twin Trip Analogy Two twins say “good bye” as one gets on a spaceship and travels through space at .99 times the speed of light. The twin on the spaceship returns after one year according to his watch. The twin on earth records a time of 10 years when the second twin returns.

  11. See p.223 - 227 • https://www.youtube.com/watch?feature=player_detailpage&v=HpIoBw0yL0c

  12. Motion through space also affects length, mass and the energy of moving objects. Length contraction: As motion gets closer and closer to the speed of light, the length of an object gets closer and closer to zero.

  13. Einstein’s Equation for Length Contraction: L = Lo 1 – ( v2/c2) Try it! How long would a 30 cm football appear at .5 times the speed of light? What happens to the length if the object travels at the speed of light?

  14. Relativistic Mass: The mass of an object is called “rest mass.” As the speed of any mass approaches the speed of light, the mass increases. m = mo 1 – ( v2/c2)

  15. Einstein’s Famous Equation: E = mc2 If the kinetic energy of an object is measured by 1/2mv2, and the mass increases as it moves, then the kinetic energy also must increase. ( KE = 1/2mv2) This equation infers that energy and mass are interchangeable. Mass can be converted to energy!

  16. Nuclear power plants and atomic bombs are the result of Einstein’s theory.

More Related