logging in or signing up sessions2 howwesee Open 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: 21 Category: Science & Tech.. 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 How we See the Universe: How we See the Universe Putting it into perspective: Putting it into perspective When we organize light waves in this type of order, we call it the 'Electromagnetic Spectrum' or EMS Do the wave: Wavelength = distance between crests Amplitude = half the height of trough to crest Frequency = number of crests that pass a point in space every second … so wavelength = speed / frequency Do the wave What does the EMS tell us?(Electromagnetic Spectrum): What does the EMS tell us? (Electromagnetic Spectrum) Transports energy Electric and magnetic fields oscillate: that’s the 'wave' Moves at speed of light, 3 x 108 m/s Wavelength, frequency, energy all related Type of radiation (usually) depends on energy/temperature of object I like a place with a little atmosphere…: http://imagers.gsfc.nasa.gov/ems/atmosphere.gif I like a place with a little atmosphere… Only visible, radio and some IR and UV gets through the air! To see gamma rays, X-rays, most UV and some IR you must go to space Spitzer Infrared Video: Spitzer Infrared Video Different Views from the Inside: Different Views from the Inside Sources: Sources Name some visible sources of light in the room Is the wall at the front of the room a light source? Definition: Sources of light are objects that emit light energy But it seems to be emitting light? Oh, I see the wall is reflecting the light, not emitting it. What is a light source? Detectors: What is a detector? Detectors Are there any other light detectors that you know of? Can you tell me where there are light detectors in this room? Transmitters and Shields: Transmitters and Shields What are some things that don’t allow light through? Is it safe to say these things 'Shield the Light'? What are some materials we know of that do allow light to either completely or partially pass through it? Is it safe to say these things 'Transmit the Light'? Invisible Sources of Light: Invisible Sources of Light There are 6 different stations throughout the room. They are equipped with a source of invisible light and a detector for detecting that light. In a moment we will break up into groups. Each station will have a set of materials. These materials are potential shields. Procedure: Procedure Each group will go from station to station. You have about 5 minutes per station. As scientists we are obligated to make a prediction about how we think each material will behave. DO THIS FIRST! Then test each material at each station to see if it is a Transmitter (T) or a Shield (S) for that particular type of light. Try to determine the common properties of the materials that block the different types of light Stations: : Stations: AM Radio Infrared lamp Flashlight FM Radio Remote control 'Black' light Let’s Get Busy! What did we learn?: What did we learn? What property of the materials we tested caused radio waves to be blocked? Are all the plastics we tested translucent/transparent to infrared light? If someone had no sunscreen while at the beach what could they cover their face with to keep from getting sun burned by UV light? M45 – The Pleiades Cluster: M45 – The Pleiades Cluster X-ray: T. Preibisch Ultraviolet: MSX Visible: AAO Infrared: IRAS Radio: NVSS Multi-wavelength Crab Nebula: Multi-wavelength Crab Nebula Ultraviolet: UIT Visible: Palomar Infrared: 2MASS Radio: VLA M51 – The Whirlpool Galaxy: M51 – The Whirlpool Galaxy X-ray: Chandra Ultraviolet: GALEX Visible: T. andamp; D. Hallas Infrared: ISO Radio: VLA You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
sessions2 howwesee Open 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: 21 Category: Science & Tech.. 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 How we See the Universe: How we See the Universe Putting it into perspective: Putting it into perspective When we organize light waves in this type of order, we call it the 'Electromagnetic Spectrum' or EMS Do the wave: Wavelength = distance between crests Amplitude = half the height of trough to crest Frequency = number of crests that pass a point in space every second … so wavelength = speed / frequency Do the wave What does the EMS tell us?(Electromagnetic Spectrum): What does the EMS tell us? (Electromagnetic Spectrum) Transports energy Electric and magnetic fields oscillate: that’s the 'wave' Moves at speed of light, 3 x 108 m/s Wavelength, frequency, energy all related Type of radiation (usually) depends on energy/temperature of object I like a place with a little atmosphere…: http://imagers.gsfc.nasa.gov/ems/atmosphere.gif I like a place with a little atmosphere… Only visible, radio and some IR and UV gets through the air! To see gamma rays, X-rays, most UV and some IR you must go to space Spitzer Infrared Video: Spitzer Infrared Video Different Views from the Inside: Different Views from the Inside Sources: Sources Name some visible sources of light in the room Is the wall at the front of the room a light source? Definition: Sources of light are objects that emit light energy But it seems to be emitting light? Oh, I see the wall is reflecting the light, not emitting it. What is a light source? Detectors: What is a detector? Detectors Are there any other light detectors that you know of? Can you tell me where there are light detectors in this room? Transmitters and Shields: Transmitters and Shields What are some things that don’t allow light through? Is it safe to say these things 'Shield the Light'? What are some materials we know of that do allow light to either completely or partially pass through it? Is it safe to say these things 'Transmit the Light'? Invisible Sources of Light: Invisible Sources of Light There are 6 different stations throughout the room. They are equipped with a source of invisible light and a detector for detecting that light. In a moment we will break up into groups. Each station will have a set of materials. These materials are potential shields. Procedure: Procedure Each group will go from station to station. You have about 5 minutes per station. As scientists we are obligated to make a prediction about how we think each material will behave. DO THIS FIRST! Then test each material at each station to see if it is a Transmitter (T) or a Shield (S) for that particular type of light. Try to determine the common properties of the materials that block the different types of light Stations: : Stations: AM Radio Infrared lamp Flashlight FM Radio Remote control 'Black' light Let’s Get Busy! What did we learn?: What did we learn? What property of the materials we tested caused radio waves to be blocked? Are all the plastics we tested translucent/transparent to infrared light? If someone had no sunscreen while at the beach what could they cover their face with to keep from getting sun burned by UV light? M45 – The Pleiades Cluster: M45 – The Pleiades Cluster X-ray: T. Preibisch Ultraviolet: MSX Visible: AAO Infrared: IRAS Radio: NVSS Multi-wavelength Crab Nebula: Multi-wavelength Crab Nebula Ultraviolet: UIT Visible: Palomar Infrared: 2MASS Radio: VLA M51 – The Whirlpool Galaxy: M51 – The Whirlpool Galaxy X-ray: Chandra Ultraviolet: GALEX Visible: T. andamp; D. Hallas Infrared: ISO Radio: VLA