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The Photoelectric Effect

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The Photoelectric Effect ... e/m measured = E/B2r End of tube near + terminal ... Look at Millikan Oil Drop Millikan put a charge on a tiny drop of oil ... – PowerPoint PPT presentation

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Title: The Photoelectric Effect


1
The Photoelectric Effect
  • Einsteins Triumph

Graphics courtesy of Physics 2000, University of
Colorado
2
Quantum Theory Early Experiments
  • Cathode rays discovered in late 19th century
  • Charge to mass ratio
  • e/m measured E/B2r

End of tube near terminal(anode) glowed
evB mv2/r eE evB etc
3
Discovery of Electron
  • Cathode rays became known as electrons
  • Most believed they were atoms
  • J.J. Thompson believed they were parts of atoms
  • Millikin measured charge on electron

4
Millikin Oil Drop Experiment
  • Shows that electron charge is quantized.
  • qe integer x 1.6 x 10-19 C

5
Closer Look at Millikan Oil Drop
Millikan put a charge on a tiny drop of oil and
measured how strong an applied electric field had
to be in order to stop the oil drop from falling.
6
Planck Distribution
Wavelength distribution of blackbody radiation
7
Planck E hf
  • Planck postulated that the radiators or
    oscillators can only emit electromagnetic
    radiation in finite amounts of energy.
  • At a given temperature T, there is then not
    enough thermal energy available to create and
    emit many large radiation quanta. More large
    energy quanta can be emitted, however, when the
    temperature is raised.

8
Do You Know How a Solar Cell Works?
Light produces electricity, right?
How?
The Photoelectric Effect, first explained
correctly by Einstein in 1905
9
Basic Info
  • When light of high enough frequency strikes a
    metal, electrons are given off

10
Apparatus
11
Simulations of Photoelectric Effect
  • Link 1
  • Link 2

12
Plancks E hf
  • Called quantum hypothesis
  • Needed to explain spectrum of light given off by
    hot objects
  • Main idea energy of atomic oscillators is not
    continuous but finite number of discrete amounts
    each related to frequency of oscillation by E
    nhf
  • h 6.63 x 10-34 J-s (Plancks Constant)
  • Photons act like particles

13
Photoelectric Effect Apparatus
  • When light hits cathode(-) current flows
  • Electrons move toward anode ()
  • If battery is reversed, electrons can be stopped
  • KEmax eV0 V0 is stopping voltage

Light
o
14
What Wave Theory Predicts
  • If light made brighter
  • electrons increases
  • Maximum KE increases
  • If change frequency, no effect on KE of electrons

15
WRONG!
  • Sorry Maxwell

16
What Photon Theory Predicts
  • Increasing brightness means more photons, not
    more energy per photon
  • Increasing frequency increases KEmax (Ehf)
  • Decreasing frequency below cutoff could mean no
    electrons ejected

17
Two Theories Animated
  • Link

18
Now for the Math
  • Let hf be incoming energy of the photon
  • Let W0 be the minimum energy required to eject
    out through the surface(work function)
  • KEmax is the maximum energy of the ejected
    electron
  • then hf KEmax W0
  • by conservation of energy in a collision

19
How to Analyze
  • KEmax can be easily determined by measuring the
    stopping potential
  • KEmax eV0 ( qeV)
  • So lets plot KEmax vs. f

20
What Happens When Light Frequency Increases?
  • KEmax hf - W0

f0 is called threshold frequency
KEmax
h is the slope
f0
f
W0
21
Meaning of Threshold(Cutoff) Frequency
  • When f is less than f0 KEmax is negative.
  • There can be no photocurrent
  • The bigger f, the bigger is KEmax
  • At cutoff frequency f0 hf0 W0

22
Problems
  • What stopping voltage is required to stop an
    electron with KE of 1electron volt?
  • A stopping voltage of 2.5 volts is just enough to
    stop all photocurrent. What is KEmax?

Ans. 1 volt
Ans. 2.5 eV
23
Finding Photon Energy
  • What is the energy of a photon of blue light with
    l 450 nm ?

HINT First find f
f c/l
E hf hc/l
hc/l (6.63x10-34 J-s)(3.0x108m/s)/(4.5 x 10-7 m)
4.42x10-19 J
/(1.6)x10-19 J/eV 2.76 eV
24
Finding KEmax
  • What is the maximum kinetic energy of electrons
    ejected from a sodium surface whose work function
    is W0 2.28 eV when illuminated by light of
    wavelength 410nm?

hf hc/l 4.85x10-19 J or 3.03 eV
(1243/410)
KEmax hf - W0 3.03 eV 2.28 eV 0.75 eV
25
Finding Cutoff Frequency or Wavelength
h 6.63 x 10-34 J-s
W0 2.28 eV
  • What is the cutoff frequency for sodium?
  • What is the longest wavelength for a photo
    current to flow?

hf0 W0 2.28 eV 3.65 x 10-19 J
f0 3.65 x 10-19 J / 6.63 x 10-34 J-s 5.5 x
1014 Hz
l0 c/f0 3.0 x 108 m/s /5.5 x 1014 Hz 545 nm
Shortcut-click
26
Using 1243 Rule
  • The wavelength corresponding to the work function
    is just 1243/2.28 eV 545 nm

27
How Can We Measure h Using the Photoelectric
Effect?
  • Plot KEmax as a function of frequency
  • h is the slope
  • KEmax hf - W0
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