yes you can.
400x
The total magnification of the microscope when using the 40x objective depends on the strength of the eye piece lens. Typically a 10x eye piece lens is used in college microscopes this would give 40x10 = 400x magnification.
Yes, you can see the ER at 400x magnification because of its size of the passageways. In a encyclopedia, it sates that the size of its pasage ways and its job allow it to bee seen at this magnification.
multiply the magnification of the eyepiece by the magnification of the high objective lens. for example, if the eyepiece magnifies x10, and the high objective magnifies x40, then the total magnification would be 400x
400x, all you have to do is multiply the numbersType your answer here...
At 400X total magnification, we were only able to view one cell at a time, due to the fact that the cells were separated from each other. The organelles that were visible in this type of cell were the nucleus, the cytoplasm and the cell membrane.
400x
The total magnification of the microscope when using the 40x objective depends on the strength of the eye piece lens. Typically a 10x eye piece lens is used in college microscopes this would give 40x10 = 400x magnification.
Yes. If the crystals are big enough. Often you can see crystals with no magnification at all!
Yes, you can see the ER at 400x magnification because of its size of the passageways. In a encyclopedia, it sates that the size of its pasage ways and its job allow it to bee seen at this magnification.
The average is 200 or 400x. magnification max.
One can obtain a total magnification of 400x while using an objective lens of 40x. Such a lens should be used along an eyepiece of 10x.
low-power magnificatin = (10x)(4x) = 40x high-power magnification = (10x)(40x) = 400x It depends on what magnification you are looking for; high-power magnification OR low-power magnification.
400x
The power of a light microscope can be determined by multiplying the magnification power of the eyepiece by the magnification power of the current lens. Ex. (10x) by (40x) results in in a 400x magnification.
400x gives the smallest field of view. The magnification of the instrument, and the field of view are inversely rational.
multiply the magnification of the eyepiece by the magnification of the high objective lens. for example, if the eyepiece magnifies x10, and the high objective magnifies x40, then the total magnification would be 400x