Gravity Affects Light: Is What We See Real?

In summary: Sunlight, for example, is actually focused by the atmosphere and then you focus it with your eyes. In summary, you can see things because gravity affects light, but it is an illusion because light doesn't come to you in a straight line.
  • #1
Karoka
12
0
I heard that gravity can affect light (according to Einstein). So does it mean that all we can see is fake? We know that light comes to an eye in a straight line, but if gravity affects it, how can we be sure were seeing real things and not an illusion?
 
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  • #2
Gravity bends light, and light doesn't come to you in a straight line. My glasses also bend light. So do windows, and so does the atmosphere. Your eye also bends light. Do you look in a mirror in the morning?

What you are seeing is simply your brain's interpretation of a tiny silver of the spectrum of the outside world. It's just as "real" as a dream...but that's a philosophical discussion, not one for this site.
 
  • #3
You are saying that something you see in a mirror or through a telescope is an illusion?

In a sense, you might claim that it is (an 'optical illusion') but the object you see is still real.
 
  • #4
I think the point is that you can't see objects, you can only see the light coming from the object. Which is nice, cause it allows you to take pictures/movies and look at it later on ;)

On a side note, I wouldn't know how else it could work though :p
 
  • #5
So does it mean that all we can see is fake?

It's not what I would call "fake" but very different than you might expect. Light is electromagnetic radiation, like that used in X rays for example, just a different frequency. And different observers may "see" things differently when moving relative to one another and at different observation locations.

Because light travels at a finite speed, distant cosmological objects, like stars, appear to us as they existed weeks or months or years ago...because the light takes that long to reach us. So a star you see right now may have exploded and the light reflecting that might not reach us for weeks or months. An analogy is fireworks explosions: you see the light after the detonation...but the sound takes a lot longer to reach you, so you hear the effects seconds later.

Also, as light passes a large mass gravity bends the light so an object is not exactly where it appears to be. That's called gravitational lensing.
 
  • #6
Worth repeating:
Lsos said:
Gravity bends light, and light doesn't come to you in a straight line. My glasses also bend light. So do windows, and so does the atmosphere. Your eye also bends light.

This puts gravitational bending of light in perspective.

If light were not bent, you would not be able to see anything at all.

Gravitational bending is far, far down the list of ways that light is altered before it reaches your retinae.
 

1. How does gravity affect light?

Gravity can affect light in several ways. First, it can cause light to bend as it passes through a region of strong gravitational pull, such as near a massive object like a black hole. This phenomenon is known as gravitational lensing. Gravity can also cause light to redshift or blueshift, which is a change in the wavelength of light due to the influence of gravity. Additionally, the presence of gravity can affect the speed of light, causing it to slow down or speed up depending on the strength of the gravitational field.

2. Is what we see through a telescope distorted by gravity?

Yes, gravity can distort the light that we see through telescopes. This distortion is due to gravitational lensing, which can cause light from distant objects to appear distorted or magnified. This phenomenon is particularly important in astrophysics, as it allows us to observe and study objects that would otherwise be too faint or distant to see.

3. Does gravity affect all types of light equally?

No, gravity affects different types of light differently. For example, gravitational lensing is more pronounced for longer wavelength light, such as radio waves, compared to shorter wavelength light, such as visible light. Additionally, the effect of gravity on light can depend on its energy or frequency.

4. Can gravity cause light to travel faster or slower?

Yes, the presence of gravity can affect the speed of light. In a strong gravitational field, such as near a black hole, light can be slowed down significantly. However, in most situations, the effect of gravity on the speed of light is negligible and does not noticeably impact our observations.

5. Is what we see through a telescope an accurate representation of reality?

Yes, what we see through a telescope is an accurate representation of reality. While gravity can distort the light that we observe, these distortions can be accounted for and corrected through careful analysis and measurements. Additionally, the laws of physics, including the behavior of light, are the same throughout the universe, so what we see is a true representation of the objects and phenomena we are observing.

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