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Light speed...


SockCymbal

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MrL_JaKiri said in post # :

 

Well done. 100% of being wrong after your first post.

 

What made you come to this conclusion?

 

It is conclusion, which i am yet unable to explain.

All I know that “time” plays a big role in it.

Time travels at the speed of light right?

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bt redliner said in post # :

 

It is conclusion, which i am yet unable to explain.

All I know that “time” plays a big role in it.

Time travels at the speed of light right?

 

No. You might as well say that the distance between the earth and the moon travels at the speed of light.

 

Time is a dimension, not a property (or information for that matter, which is (ignoring some quantum effects which sort of break it but don't) limited to c)

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I think the problem is that you're misunderstanding the phrase 'travelling through time'. That is an expression that refers to our rate of change of time, rather than time 'moving' or similar. It is we who are doing the travelling, through the direction known as 'time' (direction is a bad word, but it's the only one that can really stick, that comes to mind anyway)

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MrL_JaKiri said in post # :

I think the problem is that you're misunderstanding the phrase 'travelling through time'. That is an expression that refers to our rate of change of time, rather than time 'moving' or similar. It is we who are doing the travelling, through the direction known as 'time' (direction is a bad word, but it's the only one that can really stick, that comes to mind anyway)

 

 

Okay, I'll stick to my thoery.

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bt redliner said in post # :

 

 

Okay, I'll stick to my thoery.

 

Good for you, sticking by your conjecture in the face of all evidence.

 

ps

 

It isn't a theory, it's a conjecture. Theories have to have lots of proof behind them.

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-Demosthenes- said in post # :

It's an interesting one, I'll tell you that!

Anyway: Does time go any slower for the things that are going just under the speed of light? I'm Curious.

 

Time is stopped at the speed of light.

 

The actual equation is

 

t(at v) = t(at rest) * SQRT(1-v^2/c^2). Obviously, if v = c, then the SQRT will be equal to 0, and time will therefore stand still.

 

I must stress that, unless there's an acceleration, this is true for all observers.

 

ie. if you're moving 10ms^-1 away from me, I'll see you as having slower time, but you'll see me as having slower time too.

 

[edit]

 

Again, because c is so large, we never see the effect in every day life. It has been proven to exist, by an experiment involving atomic clocks and a plane, and by the decay rates of particles.

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-Demosthenes- said in post # :

What evidence do they use to say that c is the fastest anything can go.

 

--curious

 

Everything derives from the fact that the speed of light is the same relative to all observers. See: Michaelson-Morely, and a couple of other experiments.

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cool.....

 

i still dont understand one thing....you can be traveling .9999 the speed of light....and it will still be moving C away from you...but if you go .1 more...it will instantly stop.

 

oh wait...that has to do with time stopping...not light, right?

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SockCymbal said in post # :

cool.....

 

i still dont understand one thing....you can be traveling .9999 the speed of light....and it will still be moving C away from you...but if you go .1 more...it will instantly stop.

 

oh wait...that has to do with time stopping...not light, right?

 

It won't stop. It will still be moving away from you at c, but it won't actually happen, because time is stationary at lightspeed.

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MrL_JaKiri said in post # :

 

It won't stop. It will still be moving away from you at c, but it won't actually happen, because time is stationary at lightspeed.

 

'actually' refers to one-truth/facts but the facts are relative?

 

 

edit

light speed = posting over 300 messages with 0 hours activity.

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  • 1 month later...

bump

 

the doppler effect...

 

if the doppler effect applies to light, that would mean that when you move toward a source the light would get bluer, so would that speed up the waves relative to you, making them hit you at faster than C?

 

i dont get how no matter your speed a light beam will always travel toward you at C, and away from you at C if you are chasing it.....

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bump

 

the doppler effect...

 

if the doppler effect applies to light' date=' that would mean that when you move toward a source the light would get bluer, so would that speed up the waves relative to you, making them hit you at faster than C?

 

i dont get how no matter your speed a light beam will always travel toward you at C, and away from you at C if you are chasing it.....[/quote']

 

The Doppler effect changes both the frequency and the wavelength, such that the propagation speed remains c.

 

Everybody wants this (and quantum mechanics) to "make sense." Sorry. nature behaves differently at small scales and high speeds. Leave your "every-day behavior" expectations at the door.

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Hey, this is confusing. So does that mean that If I travel at +0.6C and someone else travels at-0.6C (sign conventions), then we both will see light at C. Now if there's a stationary observer, won't he see light at 1+0.6=1.6C ??? And will mine and the other fellow's relative velocity be 0.6C+0.6C=1.2C. Or is there another formula at high speeds like swanson said.

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