8. Light containing red (660 nm) and blue (470 nm) strikes a 0.01 m thick plate of glass (nred=1.512, nalue=1.524). The edges of the plate of glass are parallel and surrounded by air (n=1). The light starts in air, hits the plate at an initial angle of incidence of 25° , travels through the plate and back into air. a) At what angles do the two colors emerge in the glass? b) At what angles do the two colors emerge on the other side of the glass, back in air? c) What is the separation distance between the red and blue when they emerge back into air? (measured along the second edge of the glass)

8. Light containing red (660 nm) and blue (470 nm) strikes a 0.01 m thick plate of glass (nred=1.512, nalue=1.524). The edges of the plate of glass are parallel and surrounded by air (n=1). The light starts in air, hits the plate at an initial angle of incidence of 25° , travels through the plate and back into air. a) At what angles do the two colors emerge in the glass? b) At what angles do the two colors emerge on the other side of the glass, back in air? c) What is the separation distance between the red and blue when they emerge back into air? (measured along the second edge of the glass)

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Question

8. Light containing red (660 nm) and blue (470 nm) strikes a 0.01 m thick plate of glass
(nred=1.512, nblue=1.524). The edges of the plate of glass are parallel and surrounded by air
(n=1). The light starts in air, hits the plate at an initial angle of incidence of 25° , travels
through the plate and back into air.
a) At what angles do the two colors emerge in the glass?
b) At what angles do the two colors emerge on the other side of the glass, back in air?
c) What is the separation distance between the red and blue when they emerge back into
air? (measured along the second edge of the glass)

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