- #1
narcokiller
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- 0
what happens to light if it is not interfered with in any way, will it just carry on forever? What is the relationship between light and spacetime more specifically can there be time without light?
Light, Spacetime, & Beyond: Examining the Uninterrupted Path of Light
In summary, light will continue on forever if not interfered with and there can be time without light as the properties of spacetime are dependent on the speed of light but it itself has no direct effect on time. The speed of light, also known as c, is the speed of propagation for all instantaneous interactions, including visible light which is part of the electromagnetic spectrum. Time is not intrinsically tied to light, but is tied to c and the speed of other interactions like gravity.
- #2
CompuChip
Science Advisor
Homework Helper
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Welcome to PF, narcokiller.
First question:
Yep, for this you can just view it as a particle: if it's not affected by anything it will run straight (which is the reason we have shadows, of course).
As for the second: I don't think light and time have anything to do with each other. You could have space without matter, as well as time without light. If I lock you in a thick metal box for a week, that may seem like forever to you, but time still passes. Light and matter just happen to move in space (and) time
First question:
Yep, for this you can just view it as a particle: if it's not affected by anything it will run straight (which is the reason we have shadows, of course).
As for the second: I don't think light and time have anything to do with each other. You could have space without matter, as well as time without light. If I lock you in a thick metal box for a week, that may seem like forever to you, but time still passes. Light and matter just happen to move in space (and) time
- #3
Claude Bile
Science Advisor
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Yesnarcokiller said:
While the properties of spacetime are obviously dependent on the speed of light, light itself has no direct effect. So yes, there can be time without light. If I am in a room completely absent of light, time will still pass yes?narcokiller said:
Claude.
- #4
narcokiller
- 2
- 0
you got to the answer i was really seeking the relationship, i have only just started studdying physics, however i did think that time would pause, thankyou
- #5
CompuChip
Science Advisor
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Time is a strange thing. Mathematically, we can treat in on equal footing with space (this is why we speak about a 4-dimensional space-time), but whereas we can move freely in all spatial directions, we seem to be stuck in a forward movement through time.
Just keep on studying and asking questions, and you'll get some answers (and then study some more, and you'll begin starting to ask questions nobody can answer... yet
).
Just keep on studying and asking questions, and you'll get some answers (and then study some more, and you'll begin starting to ask questions nobody can answer... yet
).- #6
rbj
- 2,227
- 10
narcokiller said:
Claude Bile said:
in fact, as i understand what the physicists say, is that this quantity we call c and first measured to be various numbers around 299792458 m/s and later assigned to that value and most often called the "speed of light", is really the speed of propagation of all ostensibly instantaneous interaction. when something changes here and has an effect over there, the speed of propagation of that effect is c. if it happens to be an electromagnetic interaction, then that would be an E&M wave of which visible light is part of that spectrum.
so it isn't that time is intrisically tied to light per se, but that time is tied to c in some way which is the speed of light in vacuo among the speed of other interactions (like gravity).
1. What is the speed of light?
The speed of light in a vacuum is approximately 299,792,458 meters per second (m/s). This is a fundamental constant in physics and is denoted by the letter "c".
2. How does light travel through space?
Light travels through space in a straight line at a constant speed until it is either absorbed or scattered by matter. This is known as the principle of rectilinear propagation.
3. What is the relationship between light and spacetime?
According to Einstein's theory of general relativity, light is affected by the curvature of spacetime caused by massive objects. This is known as gravitational lensing and it explains why light can appear to bend around massive objects like stars and galaxies.
4. Can light travel through a vacuum?
Yes, light can travel through a vacuum because it does not require a medium to propagate. This is why light from distant stars and galaxies can reach us even though there is empty space between us and them.
5. What is the significance of studying light and spacetime?
Studying light and spacetime can help us better understand the fundamental laws of the universe and how it works. It also has practical applications in fields such as astronomy, telecommunications, and quantum mechanics.
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