(b) In the second experiment, a ray of white light is incident on a grating as shown in figure 2.2. Not to scale screen grating second order maximum first order maximum ray of white light 19-0 central maximum first order maximum second order maximum Fig. 2.2 The angle between the central maximum and the second order maximum for red light is 19.0°. The frequency of this red light is 4-57 x 1014 Hz. (i) Calculate the distance between the slits on this grating. (ii) Explain why the angle to the second order maximum for blue light is different to that for red light.

College Physics
11th Edition
ISBN:9781305952300
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Chapter1: Units, Trigonometry. And Vectors
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In the second experiment, a ray of white light is incident on a grating as shown
(b)
in figure 2.2.
Not to scale
screen
grating
second order maximum
first order maximum
ray of white light
19-0
central maximum
first order maximum
second order maximum
Fig. 2.2
The angle between the central maximum and the second order maximum for red
light is 19.0°.
The frequency of this red light is 4-57 x 1014 Hz.
(i) Calculate the distance between the slits on this grating.
(ii) Explain why the angle to the second order maximum for blue light
is different to that for red light.
Transcribed Image Text:In the second experiment, a ray of white light is incident on a grating as shown (b) in figure 2.2. Not to scale screen grating second order maximum first order maximum ray of white light 19-0 central maximum first order maximum second order maximum Fig. 2.2 The angle between the central maximum and the second order maximum for red light is 19.0°. The frequency of this red light is 4-57 x 1014 Hz. (i) Calculate the distance between the slits on this grating. (ii) Explain why the angle to the second order maximum for blue light is different to that for red light.
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