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Atlas V/Centaur
Baltimore-based Charm City C …
7/28/09
Description Baltimore-based Charm City Cakes crafted this artistic installment especially for Goddard's Yuri's Night celebration. The Hubble Space Telescope (right) seems to peer at Jupiter in this hanging display. Though this display was inedible, Charm City Cakes -- famous as the subject of the Food Network's "Ace of Cakes" program -- provided several sheet cakes for Yuri's Night guests. Credit: NASA/Bill Hrybyk
Date 7/28/09
NASA Connect - Having A Sola …
NASA Connect Video containin …
3/1/02
Description NASA Connect Video containing five segments as described below. NASA Connect segment exploring solar flares and how NASA scientists study these events. The video explains the goal of the HESSI satellite, when solar flares occur, and how solar flares effect the Earth's atmosphere. NASA Connect segment involving students in an activity that investigates the cycles of solar flares. The video incorporates problem solving strategies while students compute percentages of M-class flares and graph data. NASA Connect segment explaining how NASA scientists use satellites to study and predict solar storms. The segment also explores which satellites are used, why this research is important, and how the storms might affect Earth. NASA Connect segment exploring the basic properties of the sun and its composition. The segment explains what sun spots are and how they effect the solar system. NASA Connect segment involving students in a web activity that explores problems related to solar weather.
Date 3/1/02
NASA Connect - HASB - Solar …
NASA Connect segment explain …
3/1/02
Description NASA Connect segment explaining how NASA scientists use satellites to study and predict solar storms. The segment also explores which satellites are used, why this research is important, and how the storms might affect Earth.
Date 3/1/02
ViSBARD: Insights into the S …
Title ViSBARD: Insights into the Sun-Earth Connection
Abstract ViSBARD (Visual System for Browsing, Analysis, and Retrieval of Data) is a data analysis application that brings together measurements from collections of spacecraft near the Earth or throughout the heliosphere In this visualization created from ViSBARD screenshots, we see the magnetic field as measured from six different satellites. The position of each spacecraft is marked by a small color glyph (ACE = yellow, Cluster = dark blue, Geotail = green, GOES 10 = red, Polar = light blue, Wind = purple). The direction of the arrow signifies the direction of the magnetic field while the color represents the intensity (red being the highest, blue the lowest). The magnetic pole of the Earth is in yellow, and it rotates properly as the animation proceeds. This view of the magnetic storm shows highly disturbed fields at geosynchronous orbit (GOES), many crossings of the 'magntotail current sheet' where the field changes sign and points at the opposite pole of the Earth, close encounters with the Earth (large red fields that are truncated to keep the arrows from becoming huge), and the entry from the back of the picture of Wind and Geotail through the bow shock (wire-frame) and magnetopause (sometimes visible as a transparent surface).
Completed 2003-12-12
ViSBARD: Insights into the S …
Title ViSBARD: Insights into the Sun-Earth Connection
Abstract ViSBARD (Visual System for Browsing, Analysis, and Retrieval of Data) is a data analysis application that brings together measurements from collections of spacecraft near the Earth or throughout the heliosphere In this visualization created from ViSBARD screenshots, we see the magnetic field as measured from six different satellites. The position of each spacecraft is marked by a small color glyph (ACE = yellow, Cluster = dark blue, Geotail = green, GOES 10 = red, Polar = light blue, Wind = purple). The direction of the arrow signifies the direction of the magnetic field while the color represents the intensity (red being the highest, blue the lowest). The magnetic pole of the Earth is in yellow, and it rotates properly as the animation proceeds. This view of the magnetic storm shows highly disturbed fields at geosynchronous orbit (GOES), many crossings of the 'magntotail current sheet' where the field changes sign and points at the opposite pole of the Earth, close encounters with the Earth (large red fields that are truncated to keep the arrows from becoming huge), and the entry from the back of the picture of Wind and Geotail through the bow shock (wire-frame) and magnetopause (sometimes visible as a transparent surface).
Completed 2003-12-12
ViSBARD: Insights into the S …
Title ViSBARD: Insights into the Sun-Earth Connection
Abstract ViSBARD (Visual System for Browsing, Analysis, and Retrieval of Data) is a data analysis application that brings together measurements from collections of spacecraft near the Earth or throughout the heliosphere In this visualization created from ViSBARD screenshots, we see the magnetic field as measured from six different satellites. The position of each spacecraft is marked by a small color glyph (ACE = yellow, Cluster = dark blue, Geotail = green, GOES 10 = red, Polar = light blue, Wind = purple). The direction of the arrow signifies the direction of the magnetic field while the color represents the intensity (red being the highest, blue the lowest). The magnetic pole of the Earth is in yellow, and it rotates properly as the animation proceeds. This view of the magnetic storm shows highly disturbed fields at geosynchronous orbit (GOES), many crossings of the 'magntotail current sheet' where the field changes sign and points at the opposite pole of the Earth, close encounters with the Earth (large red fields that are truncated to keep the arrows from becoming huge), and the entry from the back of the picture of Wind and Geotail through the bow shock (wire-frame) and magnetopause (sometimes visible as a transparent surface).
Completed 2003-12-12
The Sun's Heliosphere & Heli …
Title The Sun's Heliosphere & Heliopause
Explanation Where does the Sun's influence end? Nobody is sure. Out past the orbits of Neptune [ http://antwrp.gsfc.nasa.gov/apod/neptune.html ] and Pluto [ http://www.nineplanets.org/pluto.html ] extends a region named the heliosphere [ http://science.msfc.nasa.gov/ssl/pad/solar/heliosph.htm ] where the Sun's magnetic field [ http://science.msfc.nasa.gov/ssl/pad/solar/the_key.htm ] and particles from the Solar Wind [ http://science.msfc.nasa.gov/ssl/pad/solar/sun_wind.htm ] continue to dominate. The surface where the Solar Wind [ http://antwrp.gsfc.nasa.gov/apod/ap000318.html ] drops below sound speed [ http://antwrp.gsfc.nasa.gov/apod/ap010221.html ] is called the termination shock [ http://web.mit.edu/space/www/voyager/voyager_science/helio.review/axford.suess.html#Distance ] and is depicted as the inner oval in the above computer-generated illustration [ http://www.cs.indiana.edu/~soljourn/ ]. It is thought that this surface occurs as close as 75-90 AU [ http://neo.jpl.nasa.gov/glossary/au.html ] -- so close that a Pioneer [ http://spaceprojects.arc.nasa.gov/Space_Projects/pioneer/PNhome.html ] or Voyager [ http://voyager.jpl.nasa.gov/ ] spacecraft may soon glide through [ http://www.srl.caltech.edu/personnel/ace/recentpub/JGR_96/pap_preprint.html ] it as they exit the Solar System [ http://antwrp.gsfc.nasa.gov/apod/ap020214.html ] at about 3 AU/year. The actual contact sheet between the Sun's ions [ http://www-istp.gsfc.nasa.gov/Education/wplasma.html ] and the Galaxy's ions is called the heliopause [ http://www-pw.physics.uiowa.edu/plasma-wave/voyager/heliopr.html ] and is thought to occur at about 110 AU. It is depicted above as the middle surface. The Sun's heliopause [ http://web.mit.edu/space/www/voyager/voyager_science/helio.review/axford.suess.html ] moves through the local interstellar medium [ http://antwrp.gsfc.nasa.gov/apod/ap020210.html ] much as a boat moves on water, pushing a bow shock [ http://antwrp.gsfc.nasa.gov/apod/ap001017.html ] out in front, thought to occur near 230 AU.
Cosmic Rays and Supernova Du …
Title Cosmic Rays and Supernova Dust
Explanation Cosmic Rays [ http://imagine.gsfc.nasa.gov/docs/features/topics/snr_group /cosmic_rays.html ] are celestial high energy particles traveling at nearly the speed of light, which constantly bombard the Earth. Discovered during [ http://antwrp.gsfc.nasa.gov/apod/ap961016.html ] high altitude balloon flights in 1912 their source has been a long standing mystery. But a recent theory suggests [ ftp://pao.gsfc.nasa.gov/pub/pao/releases/1998/98-083.htm ] that cosmic ray particles are atomic nuclei [ http://cst.lanl.gov/CST/imagemap/periodic/periodic.html ] blasted from dust grains formed in supernovae, the death explosions of massive stars. This artist's illustration shows [ ftp://PAO.GSFC.NASA.GOV/newsmedia/CRT/EJECTA.TXT ] a supernova explosion (at left) and a conical section of the expanding cloud of ejected material. Atoms are torn from the brownish bands of "dust" [ http://antwrp.gsfc.nasa.gov/apod/ap980104.html ] material by shock waves (represented by orange rings). The shocks in the expanding blast wave [ http://antwrp.gsfc.nasa.gov/apod/ap980217.html ] then accelerate the atoms to near light speeds firing them into interstellar space like cosmic bullets. The theory is supported by observations indicating that high velocity dust was formed in the nearby supernova 1987A [ http://zebu.uoregon.edu/~soper/StarDeath/sn1987a.html ], and that Beryllium, a light element created in Cosmic Ray collisions, is found equally in both old an young stars. NASA's Advanced Composition Explorer [ http://www.srl.caltech.edu/ACE/ ] (ACE) satellite can also test details of the theory by directly measuring Cosmic Rays.
STS-5 crew onboard portrait …
Title STS-5 crew onboard portrait on port side middeck
Description Crew onboard portrait taken on port side middeck shows Commander Brand holding Ace Moving Co sign (partially obscured, near center) and surrounded by Pilot Overmyer (in light t-shirt), Mission Specialist (MS) Allen (center bottom) and MS Lenoir (center top). The sign refers to the successful deployment of two commercial communications satellites on the flight's first two days.
Date Taken 1982-11-16
STS-5 crew onboard portrait …
Title STS-5 crew onboard portrait on port side middeck
Description Crew onboard portrait taken on port side middeck shows Commander Brand holding Ace Moving Co sign and surrounded by (clockwise from Brand) Mission Specialist (MS) Lenoir, Pilot Overmyer, and MS Allen. The sign refers to the successful deployment of two commercial communications satellites on the flight's first two days.
Date Taken 1982-11-16
STS-37 crewmembers pose for …
Title STS-37 crewmembers pose for onboard crew portrait on OV-104's middeck
Description STS-37 crewmembers pose for onboard (in-space) portrait with some reminders of their goals and accomplishments in hand on Atlantis', Orbiter Vehicle (OV) 104's, middeck. Commander Steven R. Nagel and Pilot Kenneth D. Cameron are on the back row. Left to right on the front row are Mission Specialist (MS) Jerry L. Ross, MS Linda M. Godwin, and MS Jerome Apt. Ross holds a sign which reads, "Ace Railroad, STS-37" and has a drawing of a railroad locomotive to pay tribute to the thorough evaluations of crew and equipment translation aid (CETA) carts which he and Apt conducted during the mission's second extravehicular activity (EVA). Godwin holds the STS-37 crew insignia and Apt shows off a giant-sized Ace of Spades with an overlay which reads, "Ace Observatory Co.," in reference to the deployment of the Gamma Ray Observatory (GRO). Forward middeck lockers appear on the left, the open airlock hatch on the right, and an United States flag in the background on the starboard wall.
Date Taken 1991-04-11
Crew portrait during 51-A mi …
Title Crew portrait during 51-A mission
Description The five-member 51-A crew celebrates a successful mission. Front row (l.-r.) Astronauts David H. Walker,pilot, Anna Lee Fisher and Joseph P. Allen, mission specialists, back row, Dale A. Gardner, mission specialist, and Frederick H. (Rick) Hauck, crew commander. The front row of astronauts are holding up signs which say "The Eagle Flies High", "2 up, 2 down, the Ace Repo Co." and "The Ace Repo Co., The Sky's no limit". The reference to the Eagle has to do with the Discovery crew's mascot, which appeared both in tis crew portrait and insignia.
Date Taken 1984-11-12
Astronaut Carl Walz shows of …
Title Astronaut Carl Walz shows off stowage locker for GPS on-orbit operations
Description On Discovery's middeck Astronaut Carl E. Walz shows off stowage locker for gear supporting the Global Positioning System (GPS) on-orbit operations. To the left is a sign which reads "Ace HST Tool Testers".
Date Taken 1993-09-15
Astronauts Readdy, Walz, and …
Title Astronauts Readdy, Walz, and Newman in airlock after EVA
Description In Discovery's airlock, astronaut William F. Readdy, pilot, holds up a STS-51 slogan -- "Ace HST Tool Testers" -- for still and video cameras to record. Readdy is flanked by astronauts Carl E. Walz (left) and James H. Newman, who had just shared a lengthy period of extravehicular activity (EVA) in and around Discovery's cargo bay.
Date Taken 1993-09-16
Spirit Hits a Home Run
PIA02187
Sol (our sun)
Panoramic Camera
Title Spirit Hits a Home Run
Original Caption Released with Image This week, NASA's Mars Exploration Rover Spirit arrived at "Home Plate," a feature that, when seen from orbit, looks like the home plate of a baseball diamond. Home Plate is a roughly circular feature about 80 meters (260 feet) in diameter that might be an old impact crater or volcanic feature. The Spirit team has been eager to get to Home Plate and has been enjoying distant views of the feature and a curious "bathtub ring" of light-colored materials along its edges. The team has pushed the rover hard to get here before the deep Martian winter sets in. After scientists had identified Home Plate from orbit, they had many theories about what it could be and what they might see. But when Spirit's panoramic camera (Pancam) took this and other images, the science team was stunned. This Pancam image is of an outcrop nicknamed "Barnhill" and surrounding rocks on the north side of Home Plate, showing the most spectacular layering that Spirit has seen. Pancam and microscopic imager views of the layers in the rocks reveal a range of grain sizes and textures that change from the lower to the upper part of the outcrop. This may help scientists figure out how the material was emplaced. Spirit is also conducting work with its arm instruments to figure out the chemistry and mineralogy of the rocks. Scientists have several hypotheses about what Home Plate could be, including features made by volcanoes and impact craters, and ways that water could have played a role. They are busy trying to figure out what the data from Spirit is really telling us. As Spirit works at Home Plate during February, the science team is choosing informal names for rocks from the great players and managers of the Negro Leagues of baseball. This outcrop, "Barnhill," is informally named for David Barnhill, the ace of the New York Cubans' pitching staff during the early 1940s. He compiled an 18-3 record in 1941 and defeated Satchel Paige in the 1942 East-West all-star game. Other rocks in the area are informally named for Josh Gibson, "Bullet Joe" Rogan, and Cumberland Posey. Stay tuned this month, as the Baseball Hall of Fame elects more players from the Negro Leagues and Spirit continues to examine these spectacular rocks. Spirit took this mosaic of images using the panoramic camera on the rover's 746th day, or sol (Feb. 7, 2006), of exploring Mars. Scientists are acquiring and processing image data for more views of the same terrain in approximate true color.
MISR Participates in Aerosol …
PIA03404
Sol (our sun)
Multi-angle Imaging SpectroR …
Title MISR Participates in Aerosol Characterization Experiment over Asia
Original Caption Released with Image Before scientists apply new spacecraft measurements to global climate change research, they must carefully test their understanding of the data under controlled conditions. During April 2001, a team of 200 investigators from 11 countries participated in the Aerosol Characterization Experiment (ACE) field campaign in Asia, deploying instruments aboard several ships, aircraft, and island stations in the waters surrounding Japan and Korea. They characterized meteorological conditions, measured the atmospheric energy balance, and directly sampled airborne dust and pollution particles while the Multi-angle Imaging SpectroRadiometer (MISR) and other satellite instruments flew overhead. These MISR images, centered just north of Shikoku Island in southwest Japan, were acquired on April 13, 2001 during Terra orbit 7015. They are two of nine simultaneous views obtained at different angles by the instrument, at 26 degrees aft of vertical (left) and 60 degrees forward of vertical (right). The entire west end of Honshu Island, which crosses the upper half of the images, is covered with broken clouds. Away from the clouds, the atmosphere looks hazier in the steeper MISR view, such differences reveal information about particles in the atmosphere. As these images were taken, the U.S. National Oceanographic and Atmospheric Administration (NOAA) Research Vessel Ron Brown and the National Science Foundation (NSF)/National Center for Atmospheric Research (NCAR) C-130 aircraft probed the environment near Oki island, in the upper left part of the images. At the same time, the Center for Interdisciplinary Remotely Piloted Aircraft Studies (CIRPAS) Twin Otter aircraft made atmospheric chemistry and heat-balance measurements in the bottom-center region of the images. For more about ACE-Asia, see http://saga.pmel.noaa.gov/aceasia/ [ http://saga.pmel.noaa.gov/aceasia/ ] MISR was built and is managed by NASA's Jet Propulsion Laboratory, Pasadena, CA, for NASA's Office of Earth Science, Washington, DC. The Terra satellite is managed by NASA's Goddard Space Flight Center, Greenbelt, MD. JPL is a division of the California Institute of Technology.
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