Other things being equal, a low place.
This depends on the screen type, the screen size, and also the computer's power. For example; a low power computer may use 200watts, where a high power gaming setup might use 800watts. A screen could use as little as 5watts, if it is a small LCD screen, while a big CRT monitor might use 200watts. Your screen should tell you it's power usage, as should your computer, if you examine the power supply.
the solution which has low dissolving power i guess
Power leveling is a term used in the gaming world. The definition of power leveling is the use of a high level character assisting the leveling of a low level character.
At low power on the compound microscope, the diameter of the field of view is 4 millimeters. This is reduced to 1.7 millimeters when you switch to medium power and further reduced to 0.4 millimeters when you switch to high power. Covert the measurment for the field of view from millimeters to microns, the conventional unit of measurment in microscopy. There are 1000 microns in one millimeter. Low power: 4mm= 4,000um Medium power: 1.7mm= 1,700um High power: 0.4mm= 400um
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.
100x
10X with a 10X (low power) would 100X bigger.
Depending on objective power and occular power, the subject may be from about 5X to about 100X
10x
It should be stored with the low-power objective in place.
scanning objective
200X 20X * 10X The 10X is the ocular lens of compound microscopes. Where your eyes go.
200X 20X * 10X The 10X is the ocular lens of compound microscopes. Where your eyes go.
200X 20X * 10X The 10X is the ocular lens of compound microscopes. Where your eyes go.
The low power objective lens is usually a 10x lens and it is used to orient the specimen and get it focused before switching to a higher power lens.
10x