Images of the Universe: Lasting Through Time

In summary, the conversation discusses how we see distant objects as they were a very long time ago, and how these images are considered fleeting or transient in nature. The question is posed as to what allows these images to last and be seen by us, and potentially by other observers. The concept of transient images and the role of electromagnetic radiation in our ability to see them is also discussed. There is a mention of the limitations of our atmosphere in blocking certain parts of the electromagnetic spectrum, and questions about how much occulting (blocking) occurs in the universe.
  • #1
Frank Stepien
5
0
We "see" distant objects as they were , sometimes, very, very, long time ago.
I assume these images are all in the fleeting / transient - for us - category.
What is it in their nature that makes them last - for us, and, potentially, other observers, to "see" them. In our world, all images, whether mental, electronic, physical ... have limited life.
 
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  • #2
Frank Stepien said:
We "see" distant objects as they were , sometimes, very, very, long time ago.
I assume these images are all in the fleeting / transient - for us - category.
What is it in their nature that makes them last - for us, and, potentially, other observers, to "see" them. In our world, all images, whether mental, electronic, physical ... have limited life.

We see them via instrumentation (telescopes in various parts of the EM spectrum). They are not in any way "fleeting/transient", so I do not understand that part of your question.
 
  • #3
phinds: I agree: - my wording is msleading, especially the words "fleeting" and "to us".
What I meant was that images we "see" do not allow us to "play back" what has happened
before or to slow things up so that we can see the details of very violent events in the Universe. Hence my use of "transient images".
However, the question, why these images last so that we can "see" them now, remains.
FStepien
 
  • #4
We can see them now because they emitted EM radiation that has been traveling through space.
 
  • #5
On the contrary. We can easily play back what has happened so long as we have been recording the sequence of events we wish to replay. This is exactly like you would record and play back anything with a normal camera. In fact, the chips used in your average digital camera are almost exactly the same as the ones used in many of the state of the art observatories. The only difference between me recording my cat chasing its tail on my bookshelf and recording the change in a supernova is that the light has to travel a far greater distance to get from the supernova to my telescope.
 
  • #6
Frank Stepien said:
phinds: I agree: - my wording is msleading, especially the words "fleeting" and "to us".
What I meant was that images we "see" do not allow us to "play back" what has happened
before or to slow things up so that we can see the details of very violent events in the Universe. Hence my use of "transient images".

You still seem to be presenting an incoherent concept. If I wave my hand and you see me do it, you cannot "play back" the event nor can you watch it in slow motion.

If, as Drakith suggested, you record it with a video camera, then you CAN play it back.

As to why we can see them at all, aroc91 has already answered that
 
  • #7
Having doug myself into a hole, I might, as well, deepen it:
Electromagnetic radiation:
I am aware that it is this that this & our ingenuity give us various ways of looking at the
Universe.This is the reason why I put the words WE SEE in inverted commas. But, what is
it that gives the EM Radiation this "self propagation" nature ?
Even so, our atmosphere is quite effective in blocking some parts of the EM Spectrum. This is the reason why we venture outside of it.
I would ASSUME that this occulting may exist throughout the Universe. I, also, assume that this "something or other" doing the occulting does not have to be as big as the enormous size of the body being occulted. I, also, assume that in the concept of a Black Hole, none of the EM Radiation can emanate from it, not, just Light in a narrower sense.
Some of the questions that come to mind:
How much of this occulting is there ? Do partial occultations exist ? ...
F. Stepien
 
  • #8
Frank Stepien said:
We "see" distant objects as they were , sometimes, very, very, long time ago.
I assume these images are all in the fleeting / transient - for us - category.
What is it in their nature that makes them last - for us, and, potentially, other observers, to "see" them. In our world, all images, whether mental, electronic, physical ... have limited life.

Hey man Can't you post your question in easy language.when i am reading this question.I feel i am reading some English mixed with some other language.
 
  • #9
Frank Stepien said:
I am aware that it is this that this & our ingenuity give us various ways of looking at the
Universe.This is the reason why I put the words WE SEE in inverted commas. But, what is
it that gives the EM Radiation this "self propagation" nature ?

It is simply the laws of the universe than an EM wave self propagates. If you want to learn how this happens there are plenty of articles online. You can try wikipedia's article on electromagnetic radiation for starters.

Even so, our atmosphere is quite effective in blocking some parts of the EM Spectrum. This is the reason why we venture outside of it.
I would ASSUME that this occulting may exist throughout the Universe. I, also, assume that this "something or other" doing the occulting does not have to be as big as the enormous size of the body being occulted. I, also, assume that in the concept of a Black Hole, none of the EM Radiation can emanate from it, not, just Light in a narrower sense.
Some of the questions that come to mind:
How much of this occulting is there ? Do partial occultations exist ? ...
F. Stepien

Occultation is a specific term that means one body moving in front of another and blocking part or all of that body from view. I don't see how this relates to your questions about EM radiation. Actually, I don't even know what you are asking here.
 
  • #10
DhruvKumar,
I am trying hard not to respond to individuals. But, you changed all that by your
"Hey man Can't you post your question in easy language.when i am reading this question.I feel i am reading some English mixed with some other language." Really: is this English ?
Also, you are so perceptive ! It is so difficult to infer from my name that I am of some foreign origin !
Occultation: I have used the word without any reference to a dictionary or awareness of
what the "astromy community" takes it to mean. Now, I found one definition in my dictionary:
concealment by one celestial body by another. What is a celestial body ? You appear to imply that a body is something like a planet (obscuring the sun). I chose to take it to mean
a "composite" like a galaxy ...
Why don't you address yourself to the crux of what I am "voicing" rather than to the "nitty gritty" ?
FStepien
 
  • #11
Frank Stepien said:
Occultation: I have used the word without any reference to a dictionary or awareness of
what the "astromy community" takes it to mean. Now, I found one definition in my dictionary:
concealment by one celestial body by another. What is a celestial body ? You appear to imply that a body is something like a planet (obscuring the sun). I chose to take it to mean
a "composite" like a galaxy ...

A celestial body is generally referred to as an object held together by gravity, such as moons, planets, stars, etc. It can refer to galaxies as well, but I have never heard of someone saying one galaxy occulted something. The term, as far as I know, just isn't used in that way.

Why don't you address yourself to the crux of what I am "voicing" rather than to the "nitty gritty" ?
FStepien

Because your questions didn't make any sense with the usual way occultation is used. Are you asking about occultations as a whole? If so then yes, they happen all the time. The moon is constantly moving in front of stars as it orbits the Earth, and you can easily see this happen over the course of even a few minutes with a telescope.

But I still don't see how this has anything to do with your original question, black holes, and the atmosphere blocking parts of the EM spectrum. I'm still uncertain as to what your original question was in regards to us "seeing things now".

And please, don't get upset. We are trying to answer your questions but it is very difficult to answer a question that you barely understand. Just try and keep it simple and stick to one thing at a time. Is your basic question regarding the propagation of light through the universe?
 
  • #12
I think you mean obscuration or absorption, rather than occultation.
Astronomers believe as much as 50% of star formation may be obscured, especially in the early universe.
 
  • #14
jimgraber,
Thank you for correcting my semantics (I agree !) & for the link.
This was a rather painful experience for me. I started on the wrong foot by not explaining what the word IMAGE meant to me. After all, visible light image, infra red image, wide view image, narrow view/highly focussed image ... are all different.
In my mind I was not limiting myself to any particular part of the EM spctrum.
The rest of the interaction stems from this lack of precision on my part.
FStepien
 
  • #15
Thanks a lot everyone as i was having some doubts. Now they are cleared. Thanks a lot.
 
  • #16
You're telling me about a transient universe.

I'm on tenterhooks waiting for Betelgeuse to blow. It may already have done so, but the light may not yet have reached us.
 

1. What is the purpose of "Images of the Universe: Lasting Through Time"?

The purpose of "Images of the Universe: Lasting Through Time" is to showcase and document the ever-evolving images of the universe, captured through various scientific instruments and technologies. It aims to inspire curiosity and wonder about the vastness and complexity of our universe.

2. How are these images captured?

The images of the universe are captured using a variety of scientific instruments, including telescopes, satellites, and space probes. These instruments are equipped with specialized cameras and sensors that can detect different wavelengths of light, such as infrared, ultraviolet, and X-rays, allowing us to see beyond what is visible to the human eye.

3. What can we learn from these images?

These images provide valuable insights into the composition, structure, and behavior of objects and phenomena in the universe. They can help us study the origins of the universe, the formation and evolution of galaxies, the nature of stars and planets, and the existence of dark matter and energy.

4. How have these images evolved over time?

Advancements in technology have greatly improved our ability to capture images of the universe. From the first telescopes used by Galileo to modern-day satellites and space probes, our understanding and visualization of the universe have drastically improved. Additionally, advancements in image processing techniques have allowed us to create stunning and detailed images of distant objects and events.

5. What challenges do scientists face in capturing these images?

Capturing images of the universe is a challenging task, as it requires precise alignment and calibration of instruments, as well as dealing with the effects of Earth's atmosphere. Additionally, the vast distances and extreme conditions of outer space present challenges in capturing clear and accurate images. Scientists also face the challenge of interpreting and making sense of the data collected from these images.

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