It means that the object you are looking it will appear eight times larger than it really is.
x8.0 and 8.0x mean the same thing. The X means times.
It means that when you are looking at it, it appears 40 times larger than it actually is.
magnification.
Minimum 40x to 60x will help to see the planet as a small disc with Its Galilean moons like stars. 80x to 120x will help to see the planet medium with Its red spot & moons. 150x to 170x will help to ravel Its details. But minimum magnification is good for beginner or you can join a astronomy club to ensure the numbers as I've given. :)
The answer is about 2.9mm at 80x.
The action of magnifying. The condition of being magnified. The result of magnifying or a magnified reproduction.Zoom
the eyepiece lens magnification X the magnification of the objective lens.
The Dissecting Light Microscope range of magnification is 20x to 80x. The Compound Light Microscope ranges from 40x to 1000x -40x Scanning -100x Low Power -400x High Power -1000x Oil Immersion
80x+32y=1280
That would besqrt[ (x80 - x0)2 + (y80 - y0)2 ) at an angle of tan-1 (y80 - y0) / (x80 - x0)or(x80 - x0) i + (y80 - y0) j
√(10x) * √(8x) = √(80x²)√(80x²) = √(16x²) * √(5) = 4x*√(5)■
if there is it has to do anything and everything!
It's an equation. If you're looking for the value of x, you can solve it like this: x + 3 = 80x + 4 x = 80x + 1 -79x = 1 x = -1/79
64x2-80x+25 = (8x-5)(8x-5) when factored
The GCF is 16x.
60x + 120x - 40x - 80x - 30x = 24030x = 240x = 240/3 = 80
magnification.
90x
Minimum 40x to 60x will help to see the planet as a small disc with Its Galilean moons like stars. 80x to 120x will help to see the planet medium with Its red spot & moons. 150x to 170x will help to ravel Its details. But minimum magnification is good for beginner or you can join a astronomy club to ensure the numbers as I've given. :)