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magnification= ocular power *objective power=10X*60X
Simply, multiply the magnification of the ocular lens times the magnification of the objective lens you have in place.
the power of the ocular lens multiplied by the magnification of the objective lens
Total magnification is calculated by objective times ocular lens. So if you increase the objective lens is directly related to an increase in magnification.
450
magnification= ocular power *objective power=10X*60X
Simply, multiply the magnification of the ocular lens times the magnification of the objective lens you have in place.
the power of the ocular lens multiplied by the magnification of the objective lens
The total magnification is equal to the magnification of the eyepiece multiplied by the magnification of the objective lens. So in this case the objective lens would need to be 100X.
It is a way of saying how much bigger the object appears. If you look at your thumb through a lens with an ocular magnification of 20x, your thumb will look twenty times bigger.
Total magnification is calculated by objective times ocular lens. So if you increase the objective lens is directly related to an increase in magnification.
450
450x TM ( magnification of the ocular lens ( 10x) multiplied by the magnification from the objective lens ( 45x)= 450x TM ( total magnification)
To determine the total magnification of an object being viewed under a microscope, multiply the magnification of the ocular lens by that of the objective lens.
15 * 30 = 450 ------------
please help i need this question answered I believe a bi-convex lens, that is, a lens with an outward curve on both surfaces, would provide the greatest magnification in a simple (single) lens system.
Each objective lens has a different magnification. Multiply the magnification of the eyepiece by the magnification of the objective lens to produce total magnification. For example, a 10X ocular lens and a 40X objective lens will produce a total magnification of 400X (10 x 40 = 400).