There is no one resolution for microscopes. The most commonly used resolution is 0.2 micrometers.
i don't know microamc as
It's much, much higher. Optical microscopes are limited - by the magnification of the lenses. Electron microscopes don't have that restriction.
Before we analyze exactly how microscopes differ magnification and resolution is it important to know the difference between the two. When we talk about a microscopes magnification it is a reference to how much the microscope can enlarge an image. However, when one refers to a microscopes resolution it is the ability for the microscope to produce a sharper and more clear image. Thus, resolution is the ability to tell two points apart from each other. For instance, imagine we place a small cell under a microscope. If the cell is very large it has a large magnification but that does not mean that it has a good resolution; the cell may appear fuzzy. However, by tweaking the resolution the cell can come into full detail and may be examined. Magnification is usually described as 10x or 100x, which means 10 times or 100 times the size. Resolution can be described as any unit of measure. For instance, if your microscope can make a distinction between two points that are 1 micrometer away from each other the resolution can be said to be 1 micrometer.
TEMs have a smallest resolvable separation distance (resolution) of about 0.5 nanometres, which is slightly above the atomic level of matter. By contrast, a light microscope has a resolution of up to 0.2 micrometres, and the human eye can see down to 100 micrometres.
These microscopes are called electron microscopes.
Because microscopes come with a special magnifying glass that can show things smaller than the resolution.
Which microscope? Expand on your question.
Electron microscopes
i don't know microamc as
The Scanning Electron Microscope (SEM) has the highest magnification and resolution of all microscopes.
blue light has a shorter wavelength = better resolution
Because they are ultra microscopic! you can tract them if you have high resolution microscopes such as electron microscopes.
It's much, much higher. Optical microscopes are limited - by the magnification of the lenses. Electron microscopes don't have that restriction.
The electron microscope because Electron microscopes can obtain pictures of extremely small objects-- much smaller than those that can be seen with light microscopes.
To find resolution power of optical microscopes.
The advantages and disadvantages of the light microscope relate to light, magnification and resolution. Light microscopes magnify visible light--an obvious advantage, since this is what our eyes can see. Magnification (how large an object appears) and resolution (the clarity of details) are both limited when using light microscopes.
Before we analyze exactly how microscopes differ magnification and resolution is it important to know the difference between the two. When we talk about a microscopes magnification it is a reference to how much the microscope can enlarge an image. However, when one refers to a microscopes resolution it is the ability for the microscope to produce a sharper and more clear image. Thus, resolution is the ability to tell two points apart from each other. For instance, imagine we place a small cell under a microscope. If the cell is very large it has a large magnification but that does not mean that it has a good resolution; the cell may appear fuzzy. However, by tweaking the resolution the cell can come into full detail and may be examined. Magnification is usually described as 10x or 100x, which means 10 times or 100 times the size. Resolution can be described as any unit of measure. For instance, if your microscope can make a distinction between two points that are 1 micrometer away from each other the resolution can be said to be 1 micrometer.