Does Light Reach Objects Moving at High Speeds?

themaster1j
Messages
2
Reaction score
0
As I just registered as a member, I don't know if this question has been asked before on this forum, and I'm sorry if I'm asking it again.

From what I understand, even if an object is moving away from light with a significant speed, the light would still approach that object as if it would be standing still.
If an object travels at 50% of the speed of light and a light beam is emitted at ~300,000km behind that object, how can the light reach the object in 1 second if the object is moving away from the light? Doesn't it mean that the distance the light would have to travel would be more than 300,000km?

I apologize for my basic understanding of Physics.
 
Physics news on Phys.org
Well for the object with speed 50% of speed of light time will increase will increase by the formula t=t0/(sqrt(1-(v/c)^2)), where t0 is original time.Similar way is for distance.The distance from your frame will have increased so that light cover's only 300000 km in one second.
 
Read about Lorentz trans formation. Speed of light is postulated to be constant by relativity because of causality. Lorentz transformation is what makes speed of light constant.

Last but not least, welcome to PF!
 
themaster1j said:
As I just registered as a member, I don't know if this question has been asked before on this forum, and I'm sorry if I'm asking it again.

From what I understand, even if an object is moving away from light with a significant speed, the light would still approach that object as if it would be standing still.
If an object travels at 50% of the speed of light and a light beam is emitted at ~300,000km behind that object, how can the light reach the object in 1 second if the object is moving away from the light? Doesn't it mean that the distance the light would have to travel would be more than 300,000km?

I apologize for my basic understanding of Physics.

In the frame where the object is moving away, it does takes more than one second. In fact you can write

x1 = -3e8 m + 3e8(m/s) * t
x2 = 1.5e8 (m/s) *t

and solve for the value of time at which x1 = x2 as t=2

However, it is still true that if you transform to the frame of the moving object, so that it is standing still, the light beam still approaches it at 'c'. You have to be careful how you analzye this, becuase the notion of simultaneity is the moving frame is different - specifically, the coordinates of the object (t=0, x=-3e8 meters) transform to something like (t=.5*gamma seconds, x = -3e8*gamma meters), where gamma 2/sqrt(3).

This is done via the Lorentz transform
<br /> x&#039; = \gamma \left( x - v\,t\right)<br />
<br /> t&#039; = \gamma \left( t - \frac{v}{c^2} \, x\right)<br />
 
So the distance the light has to travel to reach the object doesn't increase, even though the object is moving away from the light?
 

Thread 'I don't see how a black hole's event horizon can be crossed'

OK, so this has bugged me for a while about the equivalence principle and the black hole information paradox. If black holes "evaporate" via Hawking radiation, then they cannot exist forever. So, from my external perspective, watching the person fall in, they slow down, freeze, and redshift to "nothing," but never cross the event horizon. Does the equivalence principle say my perspective is valid? If it does, is it possible that that person really never crossed the event horizon? The...
View full post »

Thread 'Question about Parallel Transport'

In this video I can see a person walking around lines of curvature on a sphere with an arrow strapped to his waist. His task is to keep the arrow pointed in the same direction How does he do this ? Does he use a reference point like the stars? (that only move very slowly) If that is how he keeps the arrow pointing in the same direction, is that equivalent to saying that he orients the arrow wrt the 3d space that the sphere is embedded in? So ,although one refers to intrinsic curvature...
View full post »

Thread 'Trying to calculate proper time of worldlines using rotating frames'

So, to calculate a proper time of a worldline in SR using an inertial frame is quite easy. But I struggled a bit using a "rotating frame metric" and now I'm not sure whether I'll do it right. Couls someone point me in the right direction? "What have you tried?" Well, trying to help truly absolute layppl with some variation of a "Circular Twin Paradox" not using an inertial frame of reference for whatevere reason. I thought it would be a bit of a challenge so I made a derivation or...
View full post »

Similar threads

I A question about the speed of light and electromagnetism
2
Replies
51
Views
4K
B Prove the velocity of a moving object is absolute in one IRF?
Replies
22
Views
1K
B No object actually approaches the speed of light
Replies
9
Views
2K
B Measuring the speed of light on moving systems
Replies
13
Views
2K
B Speed of Light Unaffected by Moving Emitter
Replies
25
Views
2K
I Can the intersection point of two light beams exceed the speed of light?
Replies
9
Views
1K
I Time dilation and the human body
Replies
11
Views
2K
B Let me ask a thing about the Speed of Light
Replies
6
Views
2K
I Do objects gain mass while approaching light speed?
Replies
25
Views
3K
B Can an Object Exceed the Speed of Light?
Replies
12
Views
2K

Hot Threads

Recent Insights

Back
Top