How does light catch up and pass up when looking in to space

After the recent 'stargazing' programs on BBC they talked about looking 'back in time' and also looking back to the beginnings of the universe.

I fully grasp that light takes time to travel from one point in space to another and when light takes 1000's of years to travel this distance we see the object as it was 1000's years ago.

But this surely breaks down when they say we can look back from our current position in the universe and claim to see far enough to state we are looking at the 'beginnings' of the universe?

With the big bang theory everything was in a singularity which 'exploded' in the timeline shown on the image below..
http://www.universetoday.com/wp-content/uploads/20...

The image above, I'm guessing, should be read as if this shape and events took place in 360 degrees in all directions and not only just the left-to-right diagrammatic that is shown.

So if all 'matter' was originally in a singularity and there was a rapid expansion, and the speed of light has a finite value with 'C' at its maximum in a vacuum, then why hasn't all the light passed the material that formed the earth in the early stages of the big bang?
The way they say on TV that we are able to look back in time suggests that the earth (or the material that formed the earth) was able to travel faster than light and we are now able to wait for the singularity events and the light emitted from it to catch us up....allowing us to view it as it passes the earth.

If I explain it like this..... say for example a TV station existed at the time of the big bang and was located at the singularity.....and aired a single episode of Eastenders, it is a case of the material that formed earth having to travel/expand faster away from the singularity than the EM signal of Eastenders in order we can wait for it to arrive at a later date?
And then if we had a telescope powerful enough we could then watch/receive this particular episode of Eastenders?

If this is true then faster than light speeds are possible no?


Or is something else happening? <--I'm guessing this!

I've heard of this 'inflation' explaination before, but still find it hard to see how this is different to having matter increase its distance from the singularity and that light still has to travel this distance.

Huh?


Doesn't light always reach you at the "speed of light".


Don
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There was no light in the early stages of the big bang. It took millions of years for the first stars to form and by then the universe was already huge. The light produced from these therefore had a hell of a long way to go to reach anything.

I think that you will find that light can only ever reach you at "the speed of light" according to the theory of special relativity.

I'm quite receptive to new ideas, so perhaps you would explain to us why Einstein was wrong. Personally, I don't believe that Einstein got it 100% correct, so I am genuinely willing to give you a fair hearing.

You could be in line for a Nobel Prize .

Don
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This.

And look up Doppler Effect; Wiki can explain it a lot better than I ever could.

It's because with inflation it was spacetime that was expanding, with the matter staying in the same place and being repositioned and multiplied. So the inflation of the actual fabric of spacetime created most of the observable universe in seconds, where we already had our widely spaced positions in the universe long before the time matter started to coalesce and turn to stars. So you aren't seeing it close to the singularity, it had already inflated and is now expanding and traveling away which is why it red shifts.

The observer.

OP: great question!

Also If the static we hear on the radio is the microwave backgound and the remenants of the big bang, and microwaves are part of the electro magnetic spectrum, then why cant i tune my tv in and sit down and watch the big bang?