The amount of magnification depends on the focal length of the eyepiece.
the eyepiece lens magnification X the magnification of the objective lens.
15 * 30 = 450 ------------
To determime total magnification of a drawing you devide the dimensions of the drawing by the dimensions of the real object or specimen drawn Mathematically Magnification =Dimensions of drawing/dimensions of specimen
Simply, multiply the magnification of the ocular lens times the magnification of the objective lens you have in place.
It depends upon the standard of your SCHOOL.
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in most microscopes there are 3 different lenses with 3 different strengths of magnification. The shortest one usually is X4 magnification, if you have the right lense at the top of the microscope, which should be a X10 lense, you will get a X40 magnification.
Several things do: 1) what magnification the ocular is (usually 10x) and the highest magnification of the objectives (usually 100x), giving you a total mag of 1000x 2) resolution, which in turn is affected by numerical aperture
A micron is a measure of distance while magnification is a pure number which represents how much bigger the image of an object will be. 1000 magnification of 1 micron is 1 millimetre. 1000 magnification of 10 micron is 10 millimetres. 1000 magnification of 1 metre is 10 kilometres. 1000 magnification of 1 nanometre is 1 micrometre (micron).
The amount of magnification depends on the focal length of the eyepiece.
Good for what? Telescope? Microscope? "Magnification" is often used as a marketing tool; telescopes for example might come with a maximum magnification that is too big to get a clear image, just so they can claim "100x magnification" or whatever. And it is cheap to get a magnification that is clearly too much. The most important piece of information about a telescope is, how big is the main lens, or the main mirror. A larger diameter here will give you (a) more light-gathering power, allowing you to see fainter stars, and (b) more resolution, roughly equivalent to usefulmagnification.Good for what? Telescope? Microscope? "Magnification" is often used as a marketing tool; telescopes for example might come with a maximum magnification that is too big to get a clear image, just so they can claim "100x magnification" or whatever. And it is cheap to get a magnification that is clearly too much. The most important piece of information about a telescope is, how big is the main lens, or the main mirror. A larger diameter here will give you (a) more light-gathering power, allowing you to see fainter stars, and (b) more resolution, roughly equivalent to usefulmagnification.Good for what? Telescope? Microscope? "Magnification" is often used as a marketing tool; telescopes for example might come with a maximum magnification that is too big to get a clear image, just so they can claim "100x magnification" or whatever. And it is cheap to get a magnification that is clearly too much. The most important piece of information about a telescope is, how big is the main lens, or the main mirror. A larger diameter here will give you (a) more light-gathering power, allowing you to see fainter stars, and (b) more resolution, roughly equivalent to usefulmagnification.Good for what? Telescope? Microscope? "Magnification" is often used as a marketing tool; telescopes for example might come with a maximum magnification that is too big to get a clear image, just so they can claim "100x magnification" or whatever. And it is cheap to get a magnification that is clearly too much. The most important piece of information about a telescope is, how big is the main lens, or the main mirror. A larger diameter here will give you (a) more light-gathering power, allowing you to see fainter stars, and (b) more resolution, roughly equivalent to usefulmagnification.