We all love seeing a rainbow in the sky after a rainfall. The different colors (wavelengths) of white light disperse (separate) whenever they pass through any dispersive media, such as water. Calculate the angle (A6) between a Red and Blue ray emerging out from a “simplified" raindrop in the shape of a triangle. (Note: Raindrops don't really fall in triangular shapes.) Refer to the next page for the index of refraction of water chart. Use 5 significant figures.

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We all love seeing a rainbow in the sky after a rainfall. The different colors (wavelengths) of white light disperse (separate) whenever they pass through any dispersive media, such as (3) water. Calculate the angle (A6) between a Red and Blue ray emerging out from a “simplified" raindrop in the shape of a triangle. (Note: Raindrops don't really fall in triangular shapes.) Refer to the next page for the index of refraction of water chart. Use 5 significant figures. White light (contains all wavelengths, including 450 nm and 650 nm Sun Blue Ray: A = 450 nm Red Ray: 2= 650 nm 90° Air: n = 1.0000 35° Triangular Water Droplet Normal Note: Blue Ray will be bent more than the Red Ray, since it has a slightly higher Index of Refraction. See next page. Read each wavelength's Index of Refraction (n) to 5 significant figures. Separation Angle AO Blue Ray: A = 450 Red Ray: A= 650