Want this question answered?
Diffraction glasses differ from traditional glasses because they use a special pair of lenses that offer light grating as an entertainment source. When viewing a light source the grating effect will break the light into a prism of colors, offering the user a unique experience. You can check out companies like GloFX to view the various glasses that will feature this special lens. They also have a great FAQ page about diffraction glasses, you can read up on it by searching GloFX Glasses What Are Diffraction Glasses.
as do a pair of tweezers, usually supplied with the car attached to the fuse box cover.
Equilibrium is defined to the price-quantity pair where the quantity demanded is equal to the quantity supplied, represented by the intersection of the demand and supply curves.
Photo is a contraction of the word photograph, the plural would be photographs.The plural of invention is inventions.Modern day inventions for photographs include the digital camera.
it is a type of covalent bond in which sharing of electrons takes place
you could do "My Converse Shoes" if you have them if you don't then you can say "Converse" or "Converse Shoes"
factor pair = 9600,1factor pair = 4800,2factor pair = 3200,3factor pair = 2400,4factor pair = 1920,5factor pair = 1600,6factor pair = 1200,8factor pair = 960,10factor pair = 800,12factor pair = 640,15factor pair = 600,16factor pair = 480,20factor pair = 400,24factor pair = 384,25factor pair = 320,30factor pair = 300,32factor pair = 240,40factor pair = 200,48factor pair = 192,50factor pair = 160,60factor pair = 150,64factor pair = 128,75factor pair = 120,80factor pair = 100,96
For lens systems with circular apertures, the diffraction limited resolution can be calculated by knowing the f/# of the lens and the wavelength of light (lambda) traveling through the optical system. The diffraction limit is the maximum spatial resolution of a theoretically "perfect" lens. No further resolution will be available beyond this theoretical value. d.l. = 1/(lambda * f/#) Keep the units in mm and you will end up with a resolution limit result in units of line pairs per millimeter. e.g. - f/2.4 lens, 0.00055mm (green light) -> 1(2.4 * 0.00055mm) = 757 line pairs per millimeter. Remember that one line pair is a dark and bright line together. JFS - Optikos Corporation.
factor pair = 6000,1factor pair = 3000,2factor pair = 2000,3factor pair = 1500,4factor pair = 1200,5factor pair = 1000,6factor pair = 750,8factor pair = 600,10factor pair = 500,12factor pair = 400,15factor pair = 375,16factor pair = 300,20factor pair = 250,24factor pair = 240,25factor pair = 200,30factor pair = 150,40factor pair = 125,48factor pair = 120,50factor pair = 100,60factor pair = 80,75
factor pair = 9800,1factor pair = 4900,2factor pair = 2450,4factor pair = 1960,5factor pair = 1400,7factor pair = 1225,8factor pair = 980,10factor pair = 700,14factor pair = 490,20factor pair = 392,25factor pair = 350,28factor pair = 280,35factor pair = 245,40factor pair = 200,49factor pair = 196,50factor pair = 175,56factor pair = 140,70factor pair = 100,98
factor pair = 540,1factor pair = 270,2factor pair = 180,3factor pair = 135,4factor pair = 108,5factor pair = 90,6factor pair = 60,9factor pair = 54,10factor pair = 45,12factor pair = 36,15factor pair = 30,18factor pair = 27,20
factor pair = 612,1factor pair = 306,2factor pair = 204,3factor pair = 153,4factor pair = 102,6factor pair = 68,9factor pair = 51,12factor pair = 36,17factor pair = 34,18