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They're similar because they both have six sides, but they're different because a regular hexagon is always the same and is symetrical in six ways, and a normal hexagon is not. (You can look at images on google if you type in normal hexagon and then regular hexagon).
five types of microscopes are: A compound light microscope,the stereo microscope,the electron microscope,a simple microscope(similar to a magnifying glass,and a compound microscope.
A simple microscope similar to a magnifying lens.
Callable bonds are similar to regular bonds in many ways. The main different is that callable bonds can be redeemed before the bond has completely matured.
-- All regular (equilateral) triangles are similar. -- All squares are similar. -- All pentagons are similar. -- All hexagons are similar. . . . etc. Any regular polygon is similar to all other regular polygons with the same number of sides.
There are reflective microscopes (similar in design to a telescope), and transmission microscopes where the objective is on the other sample and used for looking at slides. There are phase-contrast microscope, electron microscopes and scanning tunneling microscope.
Yes, all regular octagons are similar. All regular x-gons are similar, as long as the x is constant, as they must have the same angle measures to be regular.
They all have a nucleus when viewed under a microscope
i think different turtles would probably look like different turtles!they look different from regular turtles you see, but similar!
If you put it under a microscope, you will be able to see the heterogenous mixture form into different parts. Opposed to this, the homogenous mixture will look similar throughout the entire mixture - also when put under a microscope.
Tree roaches look similar to regular household roaches, but are a bit different. They do not bite, but eat wood.
Galileo is credited with the first compound microscope. Zacharias Janssen invented the microscope that we use today.