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Unit 6: Electrons in Atoms part 1: properties of waves. Frequency. Definition number of waves that pass a given point per unit of time Symbol (Greek letter nu) Units Hertz (abbreviated Hz) 1 Hz = 1 wave/second 1Hz = 1/s. frequency. Wavelength.
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Frequency • Definition number of waves that pass a given point per unit of time • Symbol (Greek letter nu) • Units Hertz (abbreviated Hz) • 1 Hz = 1 wave/second • 1Hz = 1/s
Wavelength • Definition distance between similar points in a set of waves • Symbol (Greek letter lambda) • Units meters (base unit)
Amplitude • Definition distance from crest or trough to the normal (baseline) • Units meters (base unit)
amplitude Normal (baseline) Low Medium high
energy • Waves do not have energy, they transmit energy • Definition the ability to do work • Symbol E • Units Joules, abbreviate J
Speed • Definition distance that an object moves per unit of time • Symbol c • Units m/s
Electromagnetic (EM) waves • travel in a vacuum(not a vacuum cleaner…vacuum means “space that is empty of matter”); they do NOT need a medium (like air or water) to travel through • travel at the speed of light
Electromagnetic Spectrum • the range of all possible frequencies of electromagnetic radiation
Red Martians Invaded Venus Using X-ray Guns Radio Micro Infrared Visible Ultraviolet X-ray Gamma
Visible light • ranges in wavelength from approximately 400 nm (4 x 10-7 m) to 700 nm (7 x 10-7 m). • Acts as a wave and a particle (photon) • Each color has a unique wavelength, energy, and frequency range • Makes the colors of the rainbow ROY G BIV
Which has more energy, red light or blue light? Which has more energy, yellow light or red light? How is energy related to the wavelength? http://williamcraigcook.com/fireworks/DiffColors.jpg
Relationships • Energy and Amplitude – direct
low energy high energylow amplitude high amplitude
Relationships • Frequency () and Wavelength () – inverse • Formula for speed demonstrates this relationship… c = c = speed of light = 3.00 x 108m/s = frequency (Hz) = wavelength (m)
Practice Problem What is the wavelength of a radio wave with a frequency of 1.01 x 108 Hz?
Practice Problem An X-ray has a wavelength of 1.15 x 10-10 m. What is its frequency?
Relationships • Frequency and Energy - direct • Max Planck discovered this: • Electromagnetic radiation is emitted in small bursts, called "quantum“ • Think of a “quantum” as a packet of a specific amount • Each burst (quantum) has energy thatdepends on the frequency • E = h is the mathematical formula that relates light and energy E = energy, measured in Joules (J) h represents Planck’s constant h = 6.626 x 10-34Js = Frequency, measured in Hertz
Practice problem • What is the energy of radiation with a frequency of 6.32 x 1020 Hz?
Why do fireworks burn with different colors? http://blogs.timesofindia.indiatimes.com
Why do fireworks burn with different colors? Fireworks contain metallic salts. Each metal will emit a different color when vaporized. http://williamcraigcook.com/fireworks/DiffColors.jpg
Why do fireworks burn with different colors? Photons (particle of light) are emitted from an atom when electrons move from a higher potential energy level to a lower potential energy level http://www.sciencephoto.com http://www.webexhibits.org
Why do fireworks burn with different colors? The relative frequency, wavelength and energy of the photon is associated with the color of light emitted. http://williamcraigcook.com/fireworks/DiffColors.jpg
Electron in an Atom Hydrogen atom absorbs energy equal to the energy of the photon of violet, blue-green and red light. • Bohr Model This causes the hydrogen electron to move from its ground state to an excited state. The electron returns to its ground state and releases energy resulting in the emission spectra. hyperphysics.phy-astr.gsu.edu
Ground state vs. Excited State Electrons Absorption of Energy Release of Energy (Emission) hyperphysics.phy-astr.gsu.edu
Electrons and Light Quantum Leap When a valence electron absorbs energy (from heat or electricity), it “jumps” to a higher energy level (excited state). This jump is called a quantum leap. It is unstable at this excited state and cannot stay there. When is light emitted? When it falls back to a stable energy level (ground state), it releases the energy it previously absorbed. This energy is emitted as a photon of light.
Atoms and Photons and Color • Each atom’s electrons “jump” to certain excited states. • Each “fall” releases a photon of a certain energy, frequency, and wavelength which correspond to colors of light. • ATOMIC EMISSION SPECTRUM: the colors of light emitted by an atom’s electrons, and it can be used to identify the element.