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Announcements

Announcements. Homework for tomorrow… (Ch. 22, CQ2, Probs . 10 & 12) 20.22: a) 6.7 x 10 14 Hz b) 4.6 x 10 14 Hz c) 1.4 20.24 : a) 1.0 x 10 10 Hz b) 1.6 x 10 -4 s 20:26 : a) 8.6 x 10 8 Hz b) 0.23 m Office hours… MW 12:30-1:30 pm TR 9-10 am F 10-11 am

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Announcements

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  1. Announcements • Homework for tomorrow… (Ch. 22, CQ2, Probs. 10 & 12) 20.22: a) 6.7 x 1014 Hz b) 4.6 x 1014 Hz c) 1.4 20.24: a) 1.0 x 1010 Hz b) 1.6 x 10-4 s 20:26: a) 8.6 x 108Hz b) 0.23 m • Office hours… MW 12:30-1:30 pm TR 9-10 am F 10-11 am • Tutorial Learning Center (TLC) hours: M 8-1 pm, 3-6 pm, W 8-1 pm, 2-6 pm TR 8-6 pm, F 8-2 pm

  2. Chapter 22 Wave Optics (The Interference of Light & The Diffraction Grating)

  3. Last time… • Angular position of mth bright fringe… • Position of mth bright fringe… • Fringe spacing… • Position of mthdark fringe…

  4. Quiz Question 1 Two rocks are simultaneously dropped into a pond, creating the ripples shown. The lines are the wave crests. As they overlap, the ripples interfere. At the point marked with a dot, • The interference is constructive. • The interference is destructive. • The interference is somewhere between constructive and destructive. • There’s not enough information to tell about the interference.

  5. i.e. 22.1Double-slit interference of a laser beam Light from a helium-neon laser (λ=633 nm) illuminates two slits spaced 0.40 mm apart. A viewing screen is 2.0 m behind the slits. What are the distances between the two m=2 bright fringes and between the m=2 dark fringes?

  6. Quiz Question 2 A laboratory experiment produces a double-slit interference pattern on a screen. The point on the screen marked with a dot is how much farther from the left slit than from the right slit? • 1.0 . • 1.5 . • 2.0 . • 2.5 . • 3.0 .

  7. Quiz Question 3 A laboratory experiment produces a double-slit interference pattern on a screen. If the screen is moved farther away from the slits, the fringes will be • closer together. • in the same positions. • farther apart. • fuzzy and out of focus.

  8. Intensity of the Double-Slit Interference Pattern • If there were NO interference, the light intensity due to two slits would be twice the intensity of one slit (2I1). • Instead, the superposition of the 2 waves creates bright and dark fringes. • What is the intensity of the double-slit interference pattern at position y?

  9. Intensity of the Double-Slit Interference Pattern • If there were NO interference, the light intensity due to two slits would be twice the intensity of one slit (2I1). • Instead, the superposition of the 2 waves creates bright and dark fringes. • What is the intensity of the double-slit interference pattern at position y? Notice: Intensity oscillates between 0 and 4I1.

  10. Intensity of the Double-Slit Interference Pattern The actual intensity from a double-slit experiment slowly decreases as |y| increases.

  11. Quiz Question 4 A laboratory experiment produces a double-slit interference pattern on a screen. If the amplitude of the light wave is doubled, the intensity of the central maximum will increase by a factor of • √2. • 2. • 4. • 8.

  12. 22.3The Diffraction Grating • The figure shows a diffraction grating in which N slits are equally spaced a distance d apart. • Only 10 slits are shown here, but a practical grating will have hundreds or thousands of slits. What are the angular positions of the bright fringes in the interference pattern? Where does the mthbright fringe occur?

  13. 22.3The Diffraction Grating • The figure shows a diffraction grating in which N slits are equally spaced a distance d apart. • Only 10 slits are shown here, but a practical grating will have hundreds or thousands of slits. What are the angular positions of the bright fringes in the interference pattern? Where does the mthbright fringe occur?

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