Light l The study of light led to the development of the quantum mechanical model. l Light is a kind...
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![Page 1: Light l The study of light led to the development of the quantum mechanical model. l Light is a kind of electromagnetic radiation. l Electromagnetic radiation.](https://reader036.fdocuments.us/reader036/viewer/2022062421/56649f535503460f94c78683/html5/thumbnails/1.jpg)
Light The study of light led to the development
of the quantum mechanical model. Light is a kind of electromagnetic
radiation. Electromagnetic radiation includes many
types: gamma rays, x-rays, radio waves… Speed of light = 2.998 x 108 m/s, and is
abbreviated “c” – w use 3.00 x 108
All electromagnetic radiation travels at this same rate when measured in a vacuum
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R O Y G B I V
Frequency Increases
Wavelength Longer
IB: visible light = 400-700 nm
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Parts of a wave
Wavelength
AmplitudeOrigin
Crest
Trough
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Equation:
c =
c = speed of light, a constant (3.00 x 108 m/s)
(nu) = frequency, in units of hertz (hz or s-1) (lambda) = wavelength, in meters
Electromagnetic radiation propagates through space as a wave moving at the speed of light.
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Wavelength and Frequency Are inversely related
• As one goes up the other goes down.
Different frequencies of light are different colors of light.
There is a wide variety of frequencies The whole range is called a spectrum
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Radiowaves
Microwaves
Infrared .
Ultra-violet
X-Rays
GammaRays
Low Frequency
High Frequency
Long Wavelength
Short WavelengthVisible Light
Low Energy
High Energy
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Long Wavelength
=Low Frequency
=Low ENERGY
Short Wavelength
=High Frequency
=High ENERGY
Wavelength Table
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The Math
There are 3 equations:
c = E = h
Know these!
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1a.
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Examples1) What is the wavelength of blue
light with a frequency of 8.3 x 1015 hz?
2) What is the frequency of red light with a wavelength of 4.2 x 10-5 m?
3) What is the energy of a photon of each of the above?
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Ionization Energy the amount of energy required to
remove 1 mol of electrons from the ground state of 1 mol of the gaseous atom.
X(g) X+ (g) + e-
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Ionization Energy
IE increases for successive ionizations
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Ionization Energy
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Ionization Energy
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Ionization EnergyLimit of convergence – where the energy levels merge
Forms a continuum. (basically around n=∞) (ionization has occurred) 1st IE
The frequency at the line of convergence can help calculate IE1.
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Ionization Energy
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Examples4. H has a 1st IE of 1312 kJ/mol. Calculate the wavelength (nm) for the limit of convergence observed in the line spectrum.
5. The convergence limit for He is 50.5 nm. Calculate the 1st IE of He in kJ/mol.