Time variable of space-time at the end of universe

In summary, the expansion of the universe at an accelerating speed causes Redshift, which is the decrease in wavelength and increase in frequency. This also means that time increases as the expansion progresses. At the end of the expansion, the wavelength will be almost flat and time will be infinite. This is because special relativity cannot be applied in curved space-time, and General Relativity must be used to accurately calculate the effects of expansion. In terms of the time variable, there is no specific answer as it depends on the chosen clock and the rate of expansion, but it is believed that the universe will continue to expand forever.
  • #1
VaibhavP
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Time variable of space-time at the end of universe...

As universe is continuously expanding at the accelerating speed...expansion of the universe causes Redshift...the whole universe is made up of the tiny particles and the material. Because of this all the material particles of the universe must be continuously accelerating, causing redshift...in redshift wavelength decreases and the frequency increases..means time increases...and the end of the expansion the wavelength will be almost flat...and time will be infinite...I am not wrong then what that infinite time indicates?
 
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No. Exansion is universal, not local. Objects at the limit of observation are not moving any faster in their local reference frames than the local cluster. No special relativistic effects apply.
 
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But if we look mathematically wavelength, frequency and time relationship...anyway it is also getting applied to all the universe combinedly (as you said) then, time comes into picture...we cannot neglect it...
 
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VaibhavP said:
But if we look mathematically wavelength, frequency and time relationship...anyway it is also getting applied to all the universe combinedly (as you said) then, time comes into picture...we cannot neglect it...
The short of it is that special relativity only applies in flat space-time. The expansion amounts to a significant curvature of space-time that cannot be ignored if you're talking about objects at high redshift. Because of this curvature, you just can't use special relativity to get the right answer. You have to use General Relativity.
 
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Thanks Chalnoth...can you please briefly explain, the way to approach the conclusion...
 
  • #6


VaibhavP said:
Thanks Chalnoth...can you please briefly explain, the way to approach the conclusion...
I'm not entirely sure what you're asking, so I'll answer what I think you're asking...

A sort of intuitive way of approaching the question of why gravitational potential energy is negative is to consider simple, Newtonian gravity. If you have two masses very far away from one another at rest, then they have no kinetic energy. And generally, we also consider them to have zero potential energy. If you then let the system move in time, no matter how far these masses are, they will slowly be attracted to one another, falling towards one another. As they do so, they will pick up speed. Meaning that their kinetic energy increases.

And where does this extra kinetic energy come from? One easy way to describe it is to say that it comes from gravitational potential energy. The gravitational potential energy that was once zero is now some negative number, equal in magnitude to the amount of kinetic energy gained by the two masses. So it is normal to think of gravitational potential energy as being negative.

To see why the gravitational potential energy perfectly cancels all of the mass energy once you consider a closed universe in General Relativity, well, that takes a lot of work. If you really want to look into the details, look up the Hamiltonian formulation of General Relativity.
 
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Yeah that's right about gravitational potential...my basic question was why time variable remains unchanged as expansion of universe continues...the thing I am not getting is that during big bang what would have value of this variable and what it will be at the end of expansion, if we consider the expansion to be of flat type or of closed type...logically...are you getting now what I am asking about?
 
  • #8


VaibhavP said:
Yeah that's right about gravitational potential...my basic question was why time variable remains unchanged as expansion of universe continues...the thing I am not getting is that during big bang what would have value of this variable and what it will be at the end of expansion, if we consider the expansion to be of flat type or of closed type...logically...are you getting now what I am asking about?
Well, a sort of glib answer to this is that there is no answer. Basically, the specific time at any point is whatever we want it to be. All that we can measure, really, are differences in time. And even then, the difference in time depends upon the motion of the clock. So if you want to say how long something takes, you first have to define your clock.

In cosmology, we usually take a clock that is stationary with respect to the expansion (that is, a clock that sees the expansion as being the same in all directions). Such a clock, it turns out, isn't affected by the rate of expansion at all. Nor is it affected by the average matter density.

But no matter how you slice it, it looks like our universe will expand forever, so that there is no maximum limit to the difference in time starting from when our universe began.
 

Related to Time variable of space-time at the end of universe

What is the concept of "time variable of space-time at the end of universe"?

The concept of "time variable of space-time at the end of universe" refers to the idea that time and space are intricately linked and can be affected by various factors, such as gravity and the expansion of the universe. This concept is often explored in theories about the end of the universe, as it is believed that time and space will eventually reach a state of maximum entropy, or disorder, at the end of the universe.

How does time change at the end of the universe?

At the end of the universe, time is believed to slow down as the universe continues to expand and the effects of gravity become stronger. This is due to the fact that space-time itself is being stretched and distorted, causing time to behave differently than it does in our current state of the universe.

Will time eventually come to a complete stop at the end of the universe?

According to current theories, time will not come to a complete stop at the end of the universe. Instead, it will continue to pass but at a much slower rate as the effects of gravity and the expansion of the universe become more dominant. However, it is important to note that our understanding of time and space at the end of the universe is limited and subject to change as we continue to learn more about the universe.

Can the time variable of space-time at the end of universe be reversed?

It is currently not known if the time variable of space-time at the end of the universe can be reversed. Some theories suggest that the universe may eventually collapse in on itself, causing time to reverse, but this is still a topic of debate and further research is needed to fully understand the concept.

What implications does the time variable of space-time at the end of universe have for our understanding of the universe?

The time variable of space-time at the end of the universe has significant implications for our understanding of the universe and the laws of physics. It challenges our current theories and forces us to consider the possibility of a universe without time or space as we know it. It also raises questions about the ultimate fate of the universe and the role of time in its evolution.

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