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Electromagnetic Radiation

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Title: Electromagnetic Radiation


1
Electromagnetic Radiation
2
Definitions
  • Electromagnetic Radiation is energy with wavelike
    characteristics
  • Moves at a speed of 3.0 x 108 m/s

3
  • Wavelength (?) is the distance between identical
    points on successive waves meters
  • Frequency (?) is the waves passing per second
    unit is the Hertz (Hz)

4
  • Each type of radiant energy has its own
    characteristic frequency and wavelength
  • Short wavelength then high frequency
  • Long wavelength then low frequency

5
EM Equation
  • c ??
  • Yellow light given off by a sodium lamp has a
    wavelength of 589 nm. What is its frequency?
  • Radiation of high frequency has more energy than
    that with low frequency

6
Quantum Theory
  • Rules that govern the gain and loss of energy
    from an object

7
Max Planck
  • Said energy comes in chunks called quantum
  • Energy of the quantum depends on the frequency
  • ?E h?
  • Plancks constant (h) is 6.63x10-34 J-s

8
Energy Lost or Gained
  • Total energy lost or gained is a multiple of the
    quantum
  • ?Etot nh?

    n number of quantum

9
Example 1
  • Calculate the smallest increment of energy that
    an object can absorb from yellow light with a
    wavelength of 589 nm.

10
Example 2
  • A laser emits light pulses of frequency of
    4.69x1014 Hz and deposits 1.3x10-2 J on energy
    each pulse. How many quantum of energy is this?

11
Photoelectric Effect
  • Light shining on certain metals emit electrons
  • A minimum frequency of light is necessary
  • Albert Einstein explained this effect with
    quantum theory

12
  • Quantum of light is called a photon
    Ephoton h?
  • When photons are absorbed by a metal, energy is
    transferred to the electrons
  • If sufficient energy, the electron can overcome
    the attractive forces holding it in the atom and
    escape

13
  • Amount of energy depends on the freq.
  • If freq is too low, not enough energy for
    electron to escape
  • If freq is higher than what is needed for
    electron to escape, the extra energy is converted
    into kinetic energy making the electron move
    faster

14
  • Total energy of photon energy required to free
    electron kinetic energy
  • h? EB EK

15
Example
  • Potassium metal must absorb a wavelength of 540
    nm (green) or shorter in order to emit an
    electron. What will be the kinetic energy of an
    electron if it absorbs 380 nm (UV) light?
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