When you zoom in you are looking at a bigger magnification. You will only see part of the "e" as it gets bigger.
real, inverted and magnification less than one
It would be harded to move!!
more solutes = less osmotic pressure = decreased turgor pressure
because a heavier person has more inertia, and therefore the forces that work to slow the person down, i.e. friction, wind resistance, whatever, will have less effect on an object with more inertia than less inertia
The coarse focus adjustment moves the lens (or the stage, depending on the construction of the microscope). So does the fine adjustment but the fine does it much less and much more accurately (less play in the gears)
The field of vision shrinks as the magnification gets higher so as the magnification increases the less of the diameter of the microscopic field you can see.
With higher magnification you can observe bigger.To see clearly resolution also should be high.
As the magnification increases, more light is needed. This is because the size of the hole of the lens is smaller.
the view will be brighter under low power magnification...
Sandpaper is designed to be a high-friction material. High friction on a slide means less downward force, which means less acceleration and less velocity.
The size of the cell remains the same no matter what power objective is used. However, the magnification changes between these two objective lenses, with the low power objective magnifying it less than the high power objective.
Whether it's staining, cultures or magnification we all go by the motto "less is more". You start with the lower power magnifications to position the plate and increase power until you get a clear view.
When using a microscope, you are magnifying the area under the lens by however many times the magnification is on your lens. On low power the area expanded by the lens is smaller than on high magnification. When on low power more is visible and there is less area to search for your given object under the microscope. I recommend finding the object on low magnification, and then switching to high once you have found it.
we can solve the concentration of biological magnification if produce less DDT
It's actually simple: The more the magnification, the smaller a "picture" of the available light you are getting - hence the more magnification, the darker the image looks. It works the same way with an astronomical telescope: The more magnification you use (assuming the objective lens doesn't change) the dimmer the object gets. To put it another way - there is a big difference between how high a magnification you are using, and how much light is reaching your eye.
less light intensity gives a better vision
You need more light at higher powers. The reason is simple; you're looking at a smaller field with less surface for light to fall on. Discounting the light lost in the optics, a field at 50X has four times the light of one at 100X.