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13 answers

Ya could make a lot of money with a trick like that. Keep practising LOLOL

2007-02-20 10:13:04 · answer #1 · answered by Anonymous · 1 0

Matter can be accelerated beyond the speed of light during nuclear reactions and in particle accelerators. "Cerenkov radiation" as this is called, results when a charged particle, most commonly an electron, exceeds the speed of light in a dielectric (electrically insulating) medium through which it passes. Unlike fluorescence or emission spectra that have characteristic spectral peaks, Cerenkov radiation is continuous.
Higher frequencies (shorter wavelengths) are more intense in Cerenkov radiation. This is why visible Cerenkov radiation is observed to be brilliant blue. Cerenkov radiation is used in nuclear reactors to detect high-energy charged particles. The Cerenkov radiation from these charged particles is also used to determine the source and intensity of the cosmic ray, etc..

2007-02-20 19:29:16 · answer #2 · answered by Anonymous · 0 0

Matter can be accelerated beyond the speed of light during nuclear reactions and in particle accelerators. "Cherenkov radiation" as this is called, results when a charged particle, most commonly an electron, exceeds the speed of light in a dielectric (electrically insulating) medium through which it passes. Unlike fluorescence or emission spectra that have characteristic spectral peaks, Cherenkov radiation is continuous.
Higher frequencies (shorter wavelengths) are more intense in Cherenkov radiation. This is why visible Cherenkov radiation is observed to be brilliant blue. Cherenkov radiation is used in nuclear reactors to detect high-energy charged particles. The Cherenkov radiation from these charged particles is also used to determine the source and intensity of the cosmic ray, etc..

2007-02-20 12:12:42 · answer #3 · answered by goldenage 2 · 0 0

Einstein figured out that no matter can travel faster than (or even at) the speed of light. As an object approaches the speed of light, its mass increases towards infinity.
Look up "tau relativity" on Google.

2007-02-20 10:13:06 · answer #4 · answered by davidbgreensmith 4 · 0 0

Good luck with that.

But there are cases where objects can actually travel faster than the speed of light in a material. Nothing we know of can travel faster than light in a vacuum. Read this on Cherenkov radiation to learn more.

http://en.wikipedia.org/wiki/Cherenkov_radiation

2007-02-20 10:12:07 · answer #5 · answered by Jess 2 · 0 0

Einsteins law dictates that nothing can travel at the speed of light, but can travel above or below it. Not many people know that. The reason we can't go faster than light is because you have to go at the speed of light to get there. If its already faster than light and never accelarates to get there, its technically fine.

Hope that helps.

2007-02-20 10:18:54 · answer #6 · answered by ? 3 · 0 0

You just check your question it should be in the form. Which will landed first when a heavy and a thin objects release from same height and at same time?

2007-02-20 21:11:17 · answer #7 · answered by Anonymous · 0 0

If any body travels with the velocity of light, then its mass becomes infinity. No body is there in the universe which travels with the velocity of light.

2007-02-21 01:31:31 · answer #8 · answered by karnam r 1 · 0 0

Time for the object for it to reach its destination will be less than the time you record staying still.

2007-02-20 10:13:57 · answer #9 · answered by Anonymous Q 2 · 0 0

good luck fo breaking einstiens law.

2007-02-20 20:18:20 · answer #10 · answered by rajesh bhowmick 2 · 0 0

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