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Photoelectric Effect

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PHOTOELECTRIC EFFECT By. Brandi Decker, Cody Sweeney, Jessy Godin INTRO TO PHOTOELECTRIC EFFECT Discovered by Heinrich Rudolf Hertz in 1887. Photoelectric Effect: The ... – PowerPoint PPT presentation

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Title: Photoelectric Effect


1
Photoelectric Effect
  • By. Brandi Decker, Cody Sweeney, Jessy Godin

2
Intro to Photoelectric Effect
  • Discovered by Heinrich Rudolf Hertz in 1887.
  • Photoelectric Effect The ejection of electrons
    by ultraviolet light in negatively charged matter
    ( ex Zinc)
  • The relationship between the number of photons
    and intensity, and between the energy of a photon
    and frequency are the main parts to understanding
    the photoelectric effect.
  • Photons The quantum of electromagnetic energy,
    regarded as a discrete particle having zero mass,
    no electric charge, and an indefinitely long.

3
Dependants
  • The maximum energy of electrons that have been
    ejected is dependant only on the frequency the
    intensity has no affect.
  • There is a threshold frequency that must met in
    order for electrons to be ejected.
  • The number of electrons ejected is dependant on
    the intensity of the light striking the emitter.
    (The negatively charged matter)


4
Electrons being ejected
UV light with frequency meeting threshold
Negatively charged matter
5
Example
  • If the light hitting the negatively charged
    matter has a high frequency and a low intensity
    will it have a high number of electrons ejected,
    or low number of electrons ejected? Will the
    kinetic energy be high, or low?

6
Photoelectric Effect Simulation
  • http//phet.colorado.edu/en/simulation/photoelectr
    ic
  • From this we can see that as we increase the
    intensity, the current flow also increases.
  • And when we increase change the frequency, the
    current flow also changes.
  • When we change the polarity of the voltage
    source, the speed of the electrons vary depending
    on how we change the polarity.

7
Equation
  • Ek hf
  • Kinetic Energy (Plancks constant)(Frequency)
  • Note Frequency of light is found by speed of
    light (m/s)
  • Example
  • h 6.626 x10 Js
  • f 7.6 x10 Hz
  • Ek (6.626 x10 Js)(7.6 x10 Hz)
  • Ek 4.76 x10 J

_________________
wavelength (nm)
-34
15
15
-34
-18
8
Video Experiment
  • http//www.youtube.com/watch?vmuxRZ1irsrk

9
Questions
  • What is the relationship between the intensity of
    light to the frequency of light?
  • Why is there a minimum frequency required?
  • Does doubling intensity release more electrons
    form a zinc sheet?

10
Answers
  • 1. Increasing the intensity of the light beam
    increases the number of photons in the light
    beam, and thus increases the number of electrons
    excited, but does not increase the energy that
    each electron possesses. The energy of the
    emitted electrons does not depend on the
    intensity of the incoming light, but only on the
    frequency of the light.
  • 2. Because frequency determines photon energy,
    which is used to knock out an electron from the
    surface, and a minimum amount of energy is
    required to knock out an electron, it is the
    threshold that needs to be reached.
  • 3. No, because doubling the intensity simply
    increases the number of photons, it does not
    change their energy.
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