When “white light” which contains all the colors goes into a grating, it is separated out...
When “white light” which contains all the colors goes into a grating, it is separated out into the spectrum from 400. to 700. nm. The first order is distinct, in that, for m = 1, the colors range from violet to red with no “m = 2” colors in that range. However, as m increases, the orders DO overlap. What is the smallest value of m for which the red appears at a larger angle than the violet of the next (m+1) order? If you calculated all possible angles in Question 2, you can simply look and see (you could draw on a paper that violet to red ranges from, say, 33 to 45 degrees, and the next order goes from 42 to 59 – whatever your data shows. (I made up these angles, by the way, so don’t expect them to fit your data. (5)
Homework Answers
with diffraction
a Sin
= m
for red Sinr = m
r
for violet Sinv = m v
we want the red of the first order to appear at a larger angle than the violet of the next order i.e m+1
Sinr /
Sinv = m/m+1 * r
/v =
700m/400(m+1) >1
7m > 4(m+1) or
3m >4
lowest value of m = 2
the second order red appears after the 3rd order violet, i.e. the two overlap.
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