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Waves. Crest Trough Amplitude – half the height Wavelength – distance from one point on one wave to the same point on an adjacent wave Frequency – Number of times a wave passes a point in one second (Hertz). Waves. Frequency & Wavelength – Frequency & Energy – Wavelength & Energy –
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Waves • Crest • Trough • Amplitude – half the height • Wavelength – distance from one point on one wave to the same point on an adjacent wave • Frequency – Number of times a wave passes a point in one second (Hertz)
Waves • Frequency & Wavelength – • Frequency & Energy – • Wavelength & Energy – • Amplitude & Energy -
How many complete waves are shown above? • What is the wavelength of light shown above?
Blu-Ray = 405 nanometers (blue light) DVD = 650 nanometers (red light)
Calculate the number of complete wavelengths for each wave shown to the left. • Calculate the wavelength of each wave. • 1 nm = 1 X 10-9 m. Convert each wavelength to nm. • Which of the waves would be in the visible range?
Light • All electromagnetic radiation moves at speed of light (186,000 mi/s or 3 X 108 m/s) • All EM radiation is a form of light • Visible light = 400 nm to 700 nm violet red
The Electromagnetic Spectrum Light Safe radiation (non-ionizing) Dangerous (ionizing) Produced by nuclear decay
Microwaves Traditional Heat – increase translational motion of water Microwaves – increase rotational motion of water
c = ln c = speed of light (3 X 108 m/s) l = wavelength (meters) • = frequency (Hz or s-1) Important conversion 1 nm = 1 X 10-9 m
Calculate the wavelength of a 98.5 MHz FM radio station 3.05 m
Calculate the frequency of 500 nm blue light. 6 X 1014 s-1
Light 6. Wave-Particle Duality a. light can be viewed as both a wave and a particle b. Max Planck/Einstein ~1910 c. Photon – has no mass, only energy
E = hn (for one photon) E = Energy (J) h = 6.63 X 10-34 J s (Planck’s constant) n = frequency (Hz)
Calculate the energy of laser light with a frequency of 4.69 X 1014 s-1 . Ans: 3.11 X 10-19 J (This is for one photon)
Calculate the energy of a photon of wavelength 600 nm. ANS:3.3 X 10-19 J
Calculate the energy of a photon of wavelength 450 nm (blue light). Ans: 4.42 X 10-19 J (This is for one photon)
A single photon has an energy of 3.616 X 10-19 J. • Calculate the frequency of the photon. • Calculate the wavelength of a photon in meters • Calculate the wavelength of a photon in nanometers. • Is this photon in the visible range? • What range of the spectrum would you expect a photon of 800 nm to be? • Calculate the energy for one mole of photons with energy of 3.616 X 10-19 J.
5.45 X 1014 Hz • 5.50 X 10-7 m • 550 nm • Yes • IR • 3.616 X 10-19 J X 6.02 X 1023 photons 1 photon 1 mole =2.18 X 105 J/mol
Bohr Model • Neils Bohr Planetary Model • Studying line spectra of elements • Only certain lines are present (quantized) • Not a rainbow • Spectra are a fingerprint for atoms/molecules (Astronomy)
Quantized – only certain orbits exist (rest is forbidden zone)
Bohr Model 4. Ways to make something glow Photon AbsorptionCollision -Glow in the dark -Heat -Electricity -Chemical Reaction
Quantum Mechanical Model Electron as a particle Heisenberg Uncertainty Principle – can never know both the position and velocity of an electron at the same time
