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monochromatic light source

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Presentation on theme: "monochromatic light source"— Presentation transcript:

1

2 monochromatic light source
B narrow slit double slits viewing screen observed interference pattern

3 frequency of wave f Planck’s constant A light beam is made up of a stream of massless particles called photons

4

5 polarisers parallel polarisers crossed

6 transverse wave in a string
The up-down motion of the string is perpendicular to the direction of wave propagation direction of propagation

7 longitudinal sound wave in air
motion of air molecules direction of propagation

8

9 direction of propagation
unpolarised light beam

10 direction of propagation
plane of polarisation Linearly or plane polarised light: oscillating electric field confined to a single plane

11 conductive metal grid zero transmission of microwaves through metal grid incident plane polarized microwave beam microwave energy absorbed by establishing electric currents in the metal grid

12 conductive metal grid maximum transmission of microwaves through metal grid incident plane polarized microwave beam microwave energy not absorbed by the metal grid

13 vertical metal wire grid
Y direction of propagation Z X transmitted electric field vector is linearly polarized in the horizontal plane (XZ plane) vertical metal wire grid electric field vectors for unpolarised microwave mean

14 vertical metal wire grid
Y direction of propagation Z X X transmitted electric field vector is linearly polarized in the horizontal plane (XZ plane) vertical metal wire grid electric field vector for a polarised microwave mean only horizontal component is transmitted vertical component absorbed

15 light intensity detected by a photocell
Z Analyser X X Polariser Polarising axis Polarising axis electric field vectors for unpolarised beam transmitted by Analyser absorbed by Analyser only vertical electric field transmitted through Polariser

16 window has a metal mesh embedded in it
zero transmission through the cross metal grids

17 polarised reflected light (polarisation parallel to the surface)
unpolarised incident light non-metallic surface

18

19 polaroid sunglasses transmit the vertical components of sunlight
polaroid sunglasses absorb the horizontal components of sunlight unpolarised sunlight

20 unpolarised light from Sun
The polaroid sunglasses have polarisers in the lens which absorb the horizontal component of the light, so reflected light is reduced in all orientations unpolarised light from Sun direct sunlight: reduced in intensity but not as much as the glare from the reflected light upon reflection, the horizontal component has the greatest magnitude without polarised lens without polarised lens: glare reduced

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22 Y Y Z X X photocell P4 P3 P2 P1 unpolarised light source

23 Blackbody Radiation Curves
apparent colour 8000 K 6000 K 8000 K 4000 K 6000 K 4000 K UV visible IR

24

25

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27 energy of photon – binding energy
light photon energy emitted electrons energy = KEelectron binding energy W metal’s electron near surface KE emitted electron = energy of photon – binding energy PHOTOELECTRIC EFFECT  PARTICLE MODEL OF LIGHT

28 James Clerk Maxwell Heinrich Hertz

29 INTERFERENCE  WAVE MODEL OF LIGHT
interference of light in a soap bubble interference patterns of red and green light from a laser INTERFERENCE  WAVE MODEL OF LIGHT

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