That would only be possible if we could travel faster than the speed of light...a lot faster...and then you would have to get farther out than light from earth has traveled in the last million years and then look toward earth..then, in theory, you could see the past.
CT scans can focus on the thoracic or abdominal sections of the aorta to locate aneurysms and other possible aortic diseases.
A seismograph can locate a seismic wave.
1.locate title 2.locate scale 3.locate compass 4.study map
The minimum number of seismographs needed to locate an epicenter of an earthquake is 3.
Locate is a verb.
light from the they orbit makes it difficult to locate extrasolar planets with telescope
light from the they orbit makes it difficult to locate extrasolar planets with telescope
Dr. nuts
no, you can not locate it
Relative to when it happened. You have to give a reference point for something to be relative to another. It is also very helpful when using relative dating to locate samples of fossils or matter such as when your using millions of years.
they help locate things in space and they improve they way scientist research.
Yes. It is possible for Satellite to locate mineral deposit locations on earth.
Theoretically possible.
extrasolar planers are not bright compared to the stars they orbit For approximately the same reason that it's difficult to spot a mosquito circling a street light that is 5 miles away, with a telescope.
This is not possible.
Pluto can be seen with an amateur telescope but it is not easy and you will require a great deal of supporting information on how to locate it. Something like the Hubble Space Telescope would be required to see Pluto's moons, and then, not in any great detail.
The Hubble telescope was placed at Lagrangian point one. The James web telescope will be placed at Lagrangian point two. The second one will be far better than the first one. You can have the best possible telescope that can be placed as twin telescopes at Lagrangian points four and five. This will give you far deeper penetration in the space. You will probably locate the source of cosmic microwave back ground. This light is coming from outer billions of universes probably. The long object will form small angle to the twin telescope. Longer the object, smaller the the angle. This way you will be able to see beyond the universe. The comic dust that comes in the way of one telescope can be easily deleted, when not seen in the another telescope. This is like seeing the object by two eyes. It gives you three D effect.