Compton Effect Zoë O’Malley Michael Ross Brandon Bernard.
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Transcript of Compton Effect Zoë O’Malley Michael Ross Brandon Bernard.
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Compton Effect
Zoë O’Malley
Michael Ross
Brandon Bernard
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EM Spectrum
A range of electromagnetic frequencies, which include:
Infra red Visible Light Ultra violet X-rays
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Photon
Also known as a ‘photoelectron’.
A quantifiable “EM particle”, described as a “discrete energy packet” by Albert Einstein.
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Compton Effect
‘Photon-electron’ interactions within a mass results in a reduced wavelength (λ) of the photon, as well as the scattering of both the photon and electron.
This can also be explained by saying that ‘p-e’ interactions obey the laws of conservation of energy as well as momentum.
http://buphy.bu.edu/~duffy/semester2/c35_compton.html
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Conservation of Energy
V=ƒλ or C=ƒλ or λ=C/ƒ
1. ET = E‘T
2. Ep + Ee¯ = E’p + E’e¯ + Er
Ee¯ ≈ 0 ‘initial energy of e¯
Er ≈ 0 ‘energy required to release e¯ from mass
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Conservation of Energy
3. Ep = E’p + E’e¯
Ep = hƒ ‘h is Plank’s constant, ƒ is frequency
4. hƒ = hƒ’ + E’e¯
E’e¯ = ½mv2 ‘kinetic energy, moving mass
5. hƒ = hƒ’ + ½(me¯)(v’e¯)2
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Conservation of Momentum
1. p = mvp
E = mc2 or m = E/C2
Vp = C
2. p = E/C2 • C
3. P = E/C
E = hƒ
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Conservation of Momentum4. P = ƒh/C
V = ƒλ or ƒ = V/λ or ƒ = C/λ
5. P = C/λ • h/C
6. P = h/λ
7. h/λ = h/λ’ + Me¯Ve¯
h = 6.6260755 x 10-34 J•S
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Formulas & Constants
λ=C/ƒ
hƒ = hƒ’ + ½(me¯)(v’e¯)2
h/λ = h/λ’ + Me¯V e¯
h = 6.6260755 x 10-34 J•S
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Homework
Pg. 857 #5-9
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Bibliography
Zitsewitz, Paul, Mark Davids, and Robert Neff. Physics. Ontario: Maxwell MacMillan Canada, 1992.
Edwards, Lois, et al. Physics. Canada: McGraw-Hill Ryerson, 2003.
http://www.launc.tased.edu.au/online/sciences/physics/compton.html