Light as a Particle. Objectives Define a quantum Calculate the energy of a photon Relate photon...
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Transcript of Light as a Particle. Objectives Define a quantum Calculate the energy of a photon Relate photon...
Objectives
Define a quantum Calculate the energy of a photon Relate photon energy to wavelength and
frequency of EMR
Blackbody Radiation
It was known that as one heats an object it changes color. What colors can you name as objects heat up?
The color corresponds to the emission of EMR. As the object gets hotter it should emit greater and greater frequencies of EMR.
Classical Physics
– light, energy, heat, forces, electricity and magnetism
– Everything had been explained as far as scientists thought
A problem that classical physics could not explain was:
the mathematical relationship between the temperature of a material and the colour of light that material gives off
According to classical physics, the radiation emitted from an incandescent object is caused by the oscillation of the atoms and molecules that make it up.
The color corresponds to the emission of EMR. As the object gets hotter it should emit greater and greater frequencies of EMR.
What actually happened intensity increases until it reaches a
peak intensity that depends on temperature, then it drops off sharply
blackbody – a perfect absorber: an object that
completely absorbs all wavelengths of EMR that strike it (all the energy) and when heated, that energy is re-emitted as EMR
Max Planck – (early 1900’s) Planck
assumed that the energy given off by these objects had to occur in discreet units (bundles) of energy.
• EMR could only vibrate at certain discrete frequencies.
• Planck called the smallest amount of energy a quantum.
• One quantum of light is called a photon.
Quanta
Planck’s Formula the energy emitted by a vibrating atom can
be explained by the following equation
34
15
energy emitted in J or eV
frequency of the vibrating atom or frequency
of emitted radiation (/s or Hz)
Planck's constant 6.63 10
4.14 10
E hf
where
E
f
h h Js or
h eVs
The energy of a single quantum of EMR at a specific frequency or wavelength
Vibrating at some frequency
atom
of EMR is the same as the frequency of the vibrating atomf
So an EM wave is analyzed by the following equations:v c
c f
cf
cE h
To determine the energy of multiple pieces or quanta:E = nhfn = number of pieces of radiation emitted or number of quanta
Examples:
Eg) Determine the energy emitted by a photon of green light having a wavelength of 518nm.
34 8
7
19
6.63 10 (3.00 10 / )
5.18 10
3.84 10 10
hcE
Js m s
m
E J