Food & Drink1 min ago
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For more on marking an answer as the "Best Answer", please visit our FAQ.Imagine you're at a football ground, and you're watching a free kick about to be taken.
What you're watching is something that's happened in the past -- you're looking back in time!
This is because the footballer goes to kick the ball. Any photons from lights or the sun hit him and bounce off in all directions, and then travel to your eyes, which is how you see him. However, it's taken some time for the light to travel from the footballer to you, so what you're seeing is what happened a very small fraction of time in the past.
The only reason you don't notice any of this is because light moves so fast -- 300 million metres every second. So you're only seeing a very, very small amount of time in the past.
Hubble telescope is exactly the same. It's just a big eye, looking into space at some event or object, as you were at the football ground. The difference is that it's looking at things very, very far away, so the light actually takes a noticeable amount of time to travel from the object to Hubble. Hence, it's still looking back in time as you were at the football ground, just further in time than you were.
What you're watching is something that's happened in the past -- you're looking back in time!
This is because the footballer goes to kick the ball. Any photons from lights or the sun hit him and bounce off in all directions, and then travel to your eyes, which is how you see him. However, it's taken some time for the light to travel from the footballer to you, so what you're seeing is what happened a very small fraction of time in the past.
The only reason you don't notice any of this is because light moves so fast -- 300 million metres every second. So you're only seeing a very, very small amount of time in the past.
Hubble telescope is exactly the same. It's just a big eye, looking into space at some event or object, as you were at the football ground. The difference is that it's looking at things very, very far away, so the light actually takes a noticeable amount of time to travel from the object to Hubble. Hence, it's still looking back in time as you were at the football ground, just further in time than you were.
Just to nitpick (after all this IS AnswerBank, nitpicking central), if you had a celestial lightswitch, and used it to turn off the sun (i.e. cease it's nuclear reactions), then you'd have to wait 1000s of years to see it 'go out' due to the average travel time of photons from the core to the surface.
The following link is somewhat dated (1995) but offers some relevant background on how the age and size of the visible universe is conceived. . .
Cosmological yardsticks
Cosmological yardsticks