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The field of view measurements are in micrometers. The abbreviation looks like a "u" and an "m"
right. the signals crisscross at the optic chiasm.
Within the solar system the most common method of observing objects that are at a great distant from the Earth is through the use of conventional Optical Telescopes. The Kuiper Belt, the farthest observed edge of the Solar System (although not the limit of), has been viewed using the Hubble Space Telescope (HST), of Newtonian Design. The objects in this belt have both been viewed in optical wavelengths and infrared using the HST.
It is called parallax and is often used for calculating the distance to stars and other distant objects which can't be measured directly.
In the case quoted, 10 is the magnification factor of the binoculars. In other words, objects appear to be 10 times closer viewed through the binoculars compared to with the naked eye.
because most objects viewed are so small that millimeters are to big to measure with.
The field of view measurements are in micrometers. The abbreviation looks like a "u" and an "m"
Objects viewed through a light microscope look a lot bigger.
If youre wanting the length of say...a cell, you would probably use a unit pretty small like micrometers (1 x 10^6 of a meter) or nanometer (1 x 10^9 of a meter).
a slide
Objects in space that can only be viewed from earth becouse of reflected light energy are said to be
objects in space that can only be viewed from earth because of reflected light energy are said to be luminous.
Illuminated.
they look bigger.
robert hooke
with the help of microscopes
Resolution is the minimum distance between two objects. However, the two objects can still be viewed and observed as separate entities.