logging in or signing up csta waves WoodRock Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 196 Category: News & Reports.. License: All Rights Reserved Like it (0) Dislike it (0) Added: August 28, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Waves Light Up the Universe!: Waves Light Up the Universe! Dr. Laura A. Whitlock NASA’s Swift Mission Kara C. Granger Maria Carrillo HS CA Content Standards: CA Content Standards • Grades 9-12 Physics: Waves have characteristic properties that do not depend on the type of wave: * Students know waves carry energy from one place to another * Students know how to identify transverse and longitudinal waves in a mechanical media * Students know how to solve problems involving wavelength, frequency, and wave speed * Students know radio waves, light, and X-rays are different wavelength bands in the spectrum of electromagnetic waves whose speed in a vacuum is approximately 300,000,000 m/s. * Students know how to identify the characteristic properties of waves: interference, diffraction, refraction, Doppler effect, and polarization. CA Content Standards: CA Content Standards • Grades 9-12 Earth Sciences: Earth’s Place in the Universe: Earth-based and space-based astronomy reveal the structure, scale, and changes in stars, galaxies, and the universe over time. * Students know the solar system is located in an outer edge of the the disc-shaped Milky Way galaxy, which spans 100,000 light years * Students know that stars differ in their life cycles and that visual, radio, and X-ray telescopes may be used to collect data that reveal those differences * Students know the evidence indicating that the color, brightness, and evolution of a star are determined by a balance between gravitational collapse and nuclear fusion * Students know how the redshift from distant galaxies and the cosmic background radiation provide evidence for the 'big bang' model that suggests that the universe has been expanding for 10 to 20 billion years Pretty!: Pretty! But First...: But First... The Universe is a VERY Big Place: The Universe is a VERY Big Place At least 13 billion light-years (or about 100,000,000,000,000,000,000,000 kilometers) It is full of VERY big numbers! 2.7 - 10,000,000,000 Kelvin temperatures 0.000000001 - 1,000,000,000,000 Gauss magnetic fields 100,000,000,000 - 1,000,000,000,000 stars in a galaxy 1,000,000,000,000 galaxies Scientific Notation is Required!: Scientific Notation is Required! Rules for Scientific Notation: Rules for Scientific Notation 10n means 10 x 10 x 10 x 10 … [n times] 10-n means 1/(10 x 10 x 10 ….) [n times] To Multiply andamp; Divide 10a •10b = 10 a + b 10a ÷10b = 10 a - b So now, we can say….: So now, we can say…. • 1011 - 1012 stars in a galaxy • 1012 Gauss magnetic fields • 10-7 m wavelengths • 1020 Hz frequencies And now, we can ask…. Multiplication War: Multiplication War Pretty…and Full of Information!: Pretty…and Full of Information! Defining a Wave: Defining a Wave Wavelength - distance from peak to peak, or trough to trough Frequency - cycles per second; how many peaks pass a given point in 1 second EM Radiation Travels as a Wave: EM Radiation Travels as a Wave c = 3 x 108 m/s It’s not just a good idea, it’s the law! EM Spectrum Probes the Universe: EM Spectrum Probes the Universe EM Spectrum Data Table: EM Spectrum Data Table Wavelength (m) Frequency (Hz) Energy (ev) Radio 3 1 x 108 4.1 x 10-7 Microwave 2 x 10-2 1.5 x 1010 6.2 x 10-5 Infrared 4 x 10-4 7.5 x 1011 3.1 x 10-3 Visible 5 x 10-6 6 x 1013 0.25 Ultraviolet 1 x 10-7 3 x 1015 12.4 X-ray 8 x 10-11 3.75 x 1018 1.5 x 104 Gamma-ray 2.5 x 10-12 1.2 x 1020 4.95 x 105 Understanding Waves: Understanding Waves • Longitudinal waves - displacement is in same direction as the wave motion • Example: sound waves • Obeys the equation lf = v, where l is the wavelength, n is the frequency, and v is the velocity. Understanding Waves: Understanding Waves • Transverse Waves - displacement is perpendicular to the direction of motion of the wave • Example: Light • Obeys the equation lf = v, where l is the wavelength, f is the frequency, and v is the velocity. Special Things About a Light Wave: Special Things About a Light Wave • It does not need a medium through which to travel • It travels with its highest velocity in a vacuum • Its highest velocity is the speed of light, c, equal to 300,000 km/sec • The frequency (or wavelength) of the wave determines whether we call it radio, infrared, visible, ultraviolet, X-ray or gamma-ray. Fun For Every Girl and Boy!: Fun For Every Girl and Boy! Time for the Spring!: Time for the Spring! Procedure: • By vibrating your hand steadily back and forth, you can produce a train of pulses, or a periodic wave. The distance between any two neighboring crests on such a periodic wave is the wavelength. The rate at which you vibrate the spring will determine the frequency of the periodic wave. Follow the procedure on your lab sheet in order to answer the following question. Question: How does the wavelength depend on the frequency? The lab we will do is best done in groups of 3 : 'shaker', 'holder' and 'observer/recorder'. Rotate through each role! The Spring Knows!: The Spring Knows! Conclusion: Wavelength and frequency are inversely related. EM Radiation Carries Energy: EM Radiation Carries Energy • Quantum mechanics tells us that for photons E = hf • But we learned today that f = c/l • Putting these equations together, we see that E = hc/l Waves Bring Us Information About our Universe: Waves Bring Us Information About our Universe • Different energies/frequencies/wavelengths produced by different physical processes • From making observations at different wavelengths, we can 'get the big picture' mass, temperature, spin period, orbital period, chemical composition, age, magnetic field strength, distance, velocity, size Crab Nebula: Crab Nebula Crab Nebula: Crab Nebula Oh, Baby, I Love Your Wave!: Oh, Baby, I Love Your Wave! From Bill Nye, Episode 51, 'Waves' You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
csta waves WoodRock Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 196 Category: News & Reports.. License: All Rights Reserved Like it (0) Dislike it (0) Added: August 28, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Waves Light Up the Universe!: Waves Light Up the Universe! Dr. Laura A. Whitlock NASA’s Swift Mission Kara C. Granger Maria Carrillo HS CA Content Standards: CA Content Standards • Grades 9-12 Physics: Waves have characteristic properties that do not depend on the type of wave: * Students know waves carry energy from one place to another * Students know how to identify transverse and longitudinal waves in a mechanical media * Students know how to solve problems involving wavelength, frequency, and wave speed * Students know radio waves, light, and X-rays are different wavelength bands in the spectrum of electromagnetic waves whose speed in a vacuum is approximately 300,000,000 m/s. * Students know how to identify the characteristic properties of waves: interference, diffraction, refraction, Doppler effect, and polarization. CA Content Standards: CA Content Standards • Grades 9-12 Earth Sciences: Earth’s Place in the Universe: Earth-based and space-based astronomy reveal the structure, scale, and changes in stars, galaxies, and the universe over time. * Students know the solar system is located in an outer edge of the the disc-shaped Milky Way galaxy, which spans 100,000 light years * Students know that stars differ in their life cycles and that visual, radio, and X-ray telescopes may be used to collect data that reveal those differences * Students know the evidence indicating that the color, brightness, and evolution of a star are determined by a balance between gravitational collapse and nuclear fusion * Students know how the redshift from distant galaxies and the cosmic background radiation provide evidence for the 'big bang' model that suggests that the universe has been expanding for 10 to 20 billion years Pretty!: Pretty! But First...: But First... The Universe is a VERY Big Place: The Universe is a VERY Big Place At least 13 billion light-years (or about 100,000,000,000,000,000,000,000 kilometers) It is full of VERY big numbers! 2.7 - 10,000,000,000 Kelvin temperatures 0.000000001 - 1,000,000,000,000 Gauss magnetic fields 100,000,000,000 - 1,000,000,000,000 stars in a galaxy 1,000,000,000,000 galaxies Scientific Notation is Required!: Scientific Notation is Required! Rules for Scientific Notation: Rules for Scientific Notation 10n means 10 x 10 x 10 x 10 … [n times] 10-n means 1/(10 x 10 x 10 ….) [n times] To Multiply andamp; Divide 10a •10b = 10 a + b 10a ÷10b = 10 a - b So now, we can say….: So now, we can say…. • 1011 - 1012 stars in a galaxy • 1012 Gauss magnetic fields • 10-7 m wavelengths • 1020 Hz frequencies And now, we can ask…. Multiplication War: Multiplication War Pretty…and Full of Information!: Pretty…and Full of Information! Defining a Wave: Defining a Wave Wavelength - distance from peak to peak, or trough to trough Frequency - cycles per second; how many peaks pass a given point in 1 second EM Radiation Travels as a Wave: EM Radiation Travels as a Wave c = 3 x 108 m/s It’s not just a good idea, it’s the law! EM Spectrum Probes the Universe: EM Spectrum Probes the Universe EM Spectrum Data Table: EM Spectrum Data Table Wavelength (m) Frequency (Hz) Energy (ev) Radio 3 1 x 108 4.1 x 10-7 Microwave 2 x 10-2 1.5 x 1010 6.2 x 10-5 Infrared 4 x 10-4 7.5 x 1011 3.1 x 10-3 Visible 5 x 10-6 6 x 1013 0.25 Ultraviolet 1 x 10-7 3 x 1015 12.4 X-ray 8 x 10-11 3.75 x 1018 1.5 x 104 Gamma-ray 2.5 x 10-12 1.2 x 1020 4.95 x 105 Understanding Waves: Understanding Waves • Longitudinal waves - displacement is in same direction as the wave motion • Example: sound waves • Obeys the equation lf = v, where l is the wavelength, n is the frequency, and v is the velocity. Understanding Waves: Understanding Waves • Transverse Waves - displacement is perpendicular to the direction of motion of the wave • Example: Light • Obeys the equation lf = v, where l is the wavelength, f is the frequency, and v is the velocity. Special Things About a Light Wave: Special Things About a Light Wave • It does not need a medium through which to travel • It travels with its highest velocity in a vacuum • Its highest velocity is the speed of light, c, equal to 300,000 km/sec • The frequency (or wavelength) of the wave determines whether we call it radio, infrared, visible, ultraviolet, X-ray or gamma-ray. Fun For Every Girl and Boy!: Fun For Every Girl and Boy! Time for the Spring!: Time for the Spring! Procedure: • By vibrating your hand steadily back and forth, you can produce a train of pulses, or a periodic wave. The distance between any two neighboring crests on such a periodic wave is the wavelength. The rate at which you vibrate the spring will determine the frequency of the periodic wave. Follow the procedure on your lab sheet in order to answer the following question. Question: How does the wavelength depend on the frequency? The lab we will do is best done in groups of 3 : 'shaker', 'holder' and 'observer/recorder'. Rotate through each role! The Spring Knows!: The Spring Knows! Conclusion: Wavelength and frequency are inversely related. EM Radiation Carries Energy: EM Radiation Carries Energy • Quantum mechanics tells us that for photons E = hf • But we learned today that f = c/l • Putting these equations together, we see that E = hc/l Waves Bring Us Information About our Universe: Waves Bring Us Information About our Universe • Different energies/frequencies/wavelengths produced by different physical processes • From making observations at different wavelengths, we can 'get the big picture' mass, temperature, spin period, orbital period, chemical composition, age, magnetic field strength, distance, velocity, size Crab Nebula: Crab Nebula Crab Nebula: Crab Nebula Oh, Baby, I Love Your Wave!: Oh, Baby, I Love Your Wave! From Bill Nye, Episode 51, 'Waves'