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<div>Hi all,</div>
<div> Just want to quickly get his off as I am so crazy busy while also getting ready to leave for Norway and Denmark tomorrow. When I think of how this has progressed from a simple email that I sent to one teacher, one school to what is now, it is mind boggling....I
never question good or bad, although “bad” is not a term I use, just try to enjoy it all but it amazes me that I can be doing this....I am sure there are now over 400 on the group email, I have been all over the States, 6 countries overseas, spoken to probably
30-40 thousand kids and it keeps growing as well as staying so much fun...had probably 100 teachers get VIP passes to shuttle launches.. can’t begin to thank all those who have helped along the way...been so supportive in every way...I feel so very fortunate
and never take it for granted....so I will get this to you, wishing you a wonderful day and weekend to follow...we must always remember to do our best, enjoy everything we do, live in the present, make each day special, let those we care about most know, smile
and have fun! Gabe </div>
<div> </div>
<div>Also have to wish a special friend, Sissel, a Happy Birthday tomorrow as I will be flying to Norway on her birthday and she has done so much to get me to her little town of Suldal on previous visits. To my good buddy Åge who is so very kind to take me
from school to school, devoting a week of his time as we visit schools in the Oslo area...I could not do this without him...and the prospect of hopefully building something in Denmark too, thanks to Peter.....you know in order for me to leave 82 F (26C) to
go to freezing I gotta love it!!! And of course I have to wish my great friend Randall get well soon as he is undergoing surgery today.....</div>
<div> </div>
<div>It will probably be a couple of weeks before I have time to send another newsletter....but for those of you who are on Facebook, I will be posting pictures each day....friend me... gabe gabrielle ...</div>
<div> </div>
<div><font color="red"><b>Please try to find time to share this with the kids....</b><b>it’s about 5 minutes, turn </b><b>d</b><b>own the lights, </b><b>and turn</b><b> up the sound....</b><b> </b><b>Stephen Hawking - Rocket to the Future</b><b> </b><font color="black">
</font><a href="https://www.youtube.com/watch?v=YzMrNFd4oOk"><font color="#0563C1"><u>https://www.youtube.com/watch?v=YzMrNFd4oOk</u></font></a><font color="black"> </font><b>it is absolutely amazing about the ship that will travel </b><b>at</b><b> the speed
of light...</b><font color="black"> </font></font></div>
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<div><b>NASA Spacecraft Becomes First to Orbit a Dwarf Planet </b></div>
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<div>Ceres is seen from NASA's Dawn spacecraft on March 1, just a few days before the mission achieved orbit around the previously unexplored dwarf planet. The image was taken at a distance of about 30,000 miles (about 48,000 kilometers).</div>
<div><b><i>Image Credit: NASA/JPL-Caltech/UCLA/MPS/DLR/IDA</i></b></div>
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<div>NASA's Dawn spacecraft has become the first mission to achieve orbit around a dwarf planet. The spacecraft was approximately 38,000 miles (61,000) kilometers from Ceres when it was captured by the dwarf planet’s gravity at about 4:39 a.m. PST (7:39 a.m.
EST) Friday.</div>
<div>Mission controllers at NASA’s Jet Propulsion Laboratory (JPL) in Pasadena, California received a signal from the spacecraft at 5:36 a.m. PST (8:36 a.m. EST) that Dawn was healthy and thrusting with its ion engine, the indicator Dawn had entered orbit as
planned.</div>
<div>"Since its discovery in 1801, Ceres was known as a planet, then an asteroid and later a dwarf planet," said Marc Rayman, Dawn chief engineer and mission director at JPL. "Now, after a journey of 3.1 billion miles (4.9 billion kilometers) and 7.5 years,
Dawn calls Ceres, home."</div>
<div>In addition to being the first spacecraft to visit a dwarf planet, Dawn also has the distinction of being the first mission to orbit two extraterrestrial targets. From 2011 to 2012, the spacecraft explored the giant asteroid Vesta, delivering new insights
and thousands of images from that distant world. Ceres and Vesta are the two most massive residents of our solar system’s main asteroid belt between Mars and Jupiter.</div>
<div>The most recent images received from the spacecraft, taken on March 1 show Ceres as a crescent, mostly in shadow because the spacecraft's trajectory put it on a side of Ceres that faces away from the sun until mid-April. When Dawn emerges from Ceres' dark
side, it will deliver ever-sharper images as it spirals to lower orbits around the planet.</div>
<div>"We feel exhilarated," said Chris Russell, principal investigator of the Dawn mission at the University of California, Los Angeles (UCLA). "We have much to do over the next year and a half, but we are now on station with ample reserves, and a robust plan
to obtain our science objectives."</div>
<div>Dawn's mission is managed by JPL for NASA's Science Mission Directorate in Washington. Dawn is a project of the directorate's Discovery Program, managed by NASA's Marshall Space Flight Center in Huntsville, Alabama. UCLA is responsible for overall Dawn
mission science. Orbital ATK Inc., in Dulles, Virginia, designed and built the spacecraft. The German Aerospace Center, Max Planck Institute for Solar System Research, Italian Space Agency and Italian National Astrophysical Institute are international partners
on the mission team.</div>
<div>For a complete list of mission participants, visit:</div>
<div><a href="http://dawn.jpl.nasa.gov/mission"><font color="#0563C1"><b><u>http://dawn.jpl.nasa.gov/mission</u></b></font></a></div>
<div>For more information about Dawn, visit:</div>
<div><a href="http://www.nasa.gov/dawn"><font color="#0563C1"><b><u>http://www.nasa.gov/dawn</u></b></font></a></div>
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<div><b>NASA Research Suggests Mars Once Had More Water than Earth’s Arctic Ocean </b></div>
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<div>NASA scientists have determined that a primitive ocean on Mars held more water than Earth's Arctic Ocean and that the Red Planet has lost 87 percent of that water to space. </div>
<div><b><i>Image Credit: NASA/GSFC</i></b></div>
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<div>A primitive ocean on Mars held more water than Earth’s Arctic Ocean, according to NASA scientists who, using ground-based observatories, measured water signatures in the Red Planet’s atmosphere.</div>
<div>Scientists have been searching for answers to why this vast water supply left the surface. Details of the observations and computations appear in Thursday’s edition of Science magazine.</div>
<div>“Our study provides a solid estimate of how much water Mars once had, by determining how much water was lost to space,” said Geronimo Villanueva, a scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and lead author of the new paper.
“With this work, we can better understand the history of water on Mars.”</div>
<div>Perhaps about 4.3 billion years ago, Mars would have had enough water to cover its entire surface in a liquid layer about 450 feet (137 meters) deep. More likely, the water would have formed an ocean occupying almost half of Mars’ northern hemisphere,
in some regions reaching depths greater than a mile (1.6 kilometers).</div>
<div>The new estimate is based on detailed observations made at the European Southern Observatory’s Very Large Telescope in Chile, and the W.M. Keck Observatory and NASA Infrared Telescope Facility in Hawaii. With these powerful instruments, the researchers
distinguished the chemical signatures of two slightly different forms of water in Mars’ atmosphere. One is the familiar H<font size="1"><span style="font-size:7.3pt;"><sub>2</sub></span></font>O. The other is HDO, a naturally occurring variation in which one
hydrogen is replaced by a heavier form, called deuterium.</div>
<div>By comparing the ratio of HDO to H<font size="1"><span style="font-size:7.3pt;"><sub>2</sub></span></font>O in water on Mars today and comparing it with the ratio in water trapped in a Mars meteorite dating from about 4.5 billion years ago, scientists
can measure the subsequent atmospheric changes and determine how much water has escaped into space.</div>
<div>The team mapped H<font size="1"><span style="font-size:7.3pt;"><sub>2</sub></span></font>O and HDO levels several times over nearly six years, which is equal to approximately three Martian years. The resulting data produced global snapshots of each compound,
as well as their ratio. These first-of-their-kind maps reveal regional variations called microclimates and seasonal changes, even though modern Mars is essentially a desert.</div>
<div>The research team was especially interested in regions near Mars’ north and south poles, because the polar ice caps hold the planet’s largest known water reservoir. The water stored there is thought to capture the evolution of Mars’ water during the wet
Noachian period, which ended about 3.7 billion years ago, to the present.</div>
<div>From the measurements of atmospheric water in the near-polar region, the researchers determined the enrichment, or relative amounts of the two types of water, in the planet’s permanent ice caps. The enrichment of the ice caps told them how much water Mars
must have lost – a volume 6.5 times larger than the volume in the polar caps now. That means the volume of Mars’ early ocean must have been at least 20 million cubic kilometers (5 million cubic miles).</div>
<div>Based on the surface of Mars today, a likely location for this water would be in the Northern Plains, considered a good candidate because of the low-lying ground. An ancient ocean there would have covered 19 percent of the planet’s surface. By comparison,
the Atlantic Ocean occupies 17 percent of Earth’s surface.</div>
<div>“With Mars losing that much water, the planet was very likely wet for a longer period of time than was previously thought, suggesting it might have been habitable for longer,” said Michael Mumma, a senior scientist at Goddard and the second author on the
paper.</div>
<div>NASA is studying Mars with a host of spacecraft and rovers under the agency’s Mars Exploration Program, including the Opportunity and Curiosity rovers, Odyssey and Mars Reconnaissance Orbiter spacecraft, and the MAVEN orbiter, which arrived at the Red
Planet in September 2014 to study the planet’s upper atmosphere.</div>
<div>In 2016, a Mars lander mission called InSight will launch to take a first look into the deep interior of Mars. The agency also is participating in ESA’s (European Space Agency) 2016 and 2018 ExoMars missions, including providing telecommunication radios
to ESA’s 2016 orbiter and a critical element of the astrobiology instrument on the 2018 ExoMars rover. NASA’s next rover, heading to Mars in 2020, will carry instruments to conduct unprecedented science and exploration technology investigations on the Red Planet.</div>
<div>NASA’s Mars Exploration Program seeks to characterize and understand Mars as a dynamic system, including its present and past environment, climate cycles, geology and biological potential. In parallel, NASA is developing the human spaceflight capabilities
needed for future round-trip missions to Mars in the 2030s.</div>
<div>To view a video of this finding, visit:</div>
<div><a href="http://youtu.be/WH8kHncLZwM"><font color="#0563C1"><b><u>http://youtu.be/WH8kHncLZwM</u></b></font></a></div>
<div>More information about NASA's Mars programs is online at:</div>
<div><a href="http://www.nasa.gov/mars"><font color="#0563C1"><b><u>http://www.nasa.gov/mars</u></b></font></a></div>
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<div><b>NASA Television to Air Major SLS Booster Test Firing Events, Media Invited </b></div>
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<div>Engineers at Orbital ATK in Promontory, Utah, prepare to test the booster that will help power NASA’s Space Launch System to space to begin missions to deep space, including to an asteroid and Mars. A test on March 11 is one of two that will qualify the
booster for flight.</div>
<div><b><i>Image Credit: Orbital ATK</i></b></div>
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<div>The largest, most powerful booster ever built for NASA's new rocket, the Space Launch System (SLS), will fire up for a ground test at 11:30 a.m. EDT (9:30 a.m. MDT) Wednesday, March 11, at Orbital ATK Propulsion Systems’ test facilities in Promontory,
Utah.</div>
<div>NASA Television will air a NASA Social on Tuesday, March 10 and the test on Wednesday.</div>
<div>The two-minute static test is a significant milestone for the SLS as part of NASA’s journey to Mars, and follows years of development. It is one of two ground tests to qualify the booster for flight. A second test is planned for early 2016. Once qualification
is complete, the hardware will be ready to help send the rocket, along with NASA’s Orion spacecraft, on its first flight test.</div>
<div>Media events before and after the test include:</div>
<div><b>Tuesday, March 10 </b>(all times are listed as EDT):</div>
<ul style="margin:0;padding-left:36pt;">
<li>10 a.m. – Media tour of Orbital ATK facilities to see how the world’s most powerful booster is made</li><li>3 p.m. – NASA TV airs NASA Social with agency and Orbital ATK representatives</li><li>4:30 p.m. – Media interviews with NASA and Orbital ATK representatives</li></ul>
<div><b>Wednesday, March 11</b></div>
<ul style="margin:0;padding-left:36pt;">
<li>7 a.m. – Media availability in front of the booster before test with NASA and Orbital ATK representatives</li><li>9 a.m. – All media must be present at the Orbital ATK lobby for transportation to the press site</li><li>11 a.m. – NASA TV begins coverage of SLS booster test</li><li>12:45 p.m. – Post-test media availability for on-site media (not on NASA TV)</li><li>Approximately 1:30 p.m. – post-test motor viewing approximately two hours after the test</li></ul>
<div>Members of the media interested in covering the events must contact Orbital ATK's Kay Anderson at 435-230-2787 or <a href="mailto:kay.anderson@orbitalatk.com"><font color="#0563C1"><u>kay.anderson@orbitalatk.com</u></font></a>.</div>
<div>A public viewing area is available along State Road 83 North approximately 20 miles west of Corinne, Utah. The gate to the public viewing area opens at 7 a.m. MDT Wednesday. Overflow parking is available, if needed.</div>
<div>When completed, two five-segment, solid-rocket boosters and four RS-25 main engines will power the SLS as it begins its deep space missions. The boosters operate in parallel with the main engines for the first two minutes of flight, providing more than
75 percent of the thrust needed for the rocket to escape Earth’s gravitational pull.</div>
<div>The first flight test of the SLS will feature a configuration for a 70-metric-ton (77-ton) lift capacity and carry an uncrewed Orion spacecraft beyond low-Earth orbit to test the performance of the integrated system. As the SLS is updated, it will provide
an unprecedented lift capability of 130 metric tons (143 tons) to enable missions even farther into our solar system.</div>
<div>A map for the public viewing area for the test is at:</div>
<div><a href="http://go.nasa.gov/1zdgL8U"><font color="#0563C1"><b><u>http://go.nasa.gov/1zdgL8U</u></b></font></a><b> </b></div>
<div>For NASA TV streaming video, downlink and schedule information, visit:</div>
<div><a href="http://www.nasa.gov/nasatv"><font color="#0563C1"><b><u>http://www.nasa.gov/nasatv</u></b></font></a><b> </b></div>
<div>For more information on SLS, visit:</div>
<div><a href="http://www.nasa.gov/sls"><font color="#0563C1"><b><u>http://www.nasa.gov/sls</u></b></font></a><b> </b></div>
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<div><b>NASA Television to Air Space Station Change of Commander, Return of Three Crew Members </b></div>
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<div>Expedition 42 commander Barry Wilmore of NASA (left), Alexander Samokutyaev of the Russian Federal Space Agency (Roscosmos) and Elena Serova of Roscosmos, seen here at the Gagarin Cosmonaut Training Center in Star City, Russia, just weeks before their
launch to the International Space Station, are scheduled to return to Earth March 11, 2015.</div>
<div><b><i>Image Credit: NASA/Stephanie Stoll</i></b></div>
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<div>Three International Space Station crew members are scheduled to leave the orbiting laboratory Wednesday, March 11 after almost six months in space performing scientific research and technology demonstrations.</div>
<div>NASA Television will provide complete coverage of their departure and return to Earth, beginning with the space station change of command ceremony on Tuesday, March 10.</div>
<div>Expedition 42 Commander Barry Wilmore of NASA will hand over command of the station to fellow NASA astronaut Terry Virts. At 6:44 p.m. Tuesday, Wilmore and flight engineers Alexander Samokutyaev and Elena Serova of the Russian Federal Space Agency (Roscosmos)
will undock their Soyuz spacecraft from the space station and land in Kazakhstan at 10:08 p.m. (8:08 a.m. March 12 Kazakh time).</div>
<div>NASA Television coverage is as follows:</div>
<div><b>Tuesday, March 10</b></div>
<ul style="margin:0;padding-left:36pt;">
<li>10:25 a.m. -- Change of command ceremony in which Wilmore hands over station command to Virts</li></ul>
<div><b>Wednesday, March 11</b></div>
<ul style="margin:0;padding-left:36pt;">
<li>3 p.m. -- Farewell and hatch closure coverage (hatch closure scheduled at 3:25 p.m.)</li><li>6:15 p.m. -- Undocking coverage (undocking scheduled at 6:44 p.m.)</li><li>9 p.m. -- Deorbit burn and landing coverage (deorbit burn scheduled at 9:16 p.m., with landing at 10:08 p.m.)</li></ul>
<div><b>Thursday, March 12</b></div>
<ul style="margin:0;padding-left:36pt;">
<li>12 a.m. -- Video File of hatch closure, undocking and landing activities</li><li>10:30 a.m. -- Video File of landing and post-landing activities and post-landing interview with Wilmore in Kazakhstan</li></ul>
<div>Their return will complete 167 days in space since launching from Kazakhstan on Sept. 26, on a mission covering almost 71 million miles. Wilmore will have logged 178 days in space on two flights, the first of which was on space shuttle mission STS-129
in 2009. Samokutyaev will have spent 331 days in space on two flights, the first of which was on Expedition 27/28 in 2011. This was Serova’s first flight into space.</div>
<div>At the time of undocking, Expedition 43 officially will begin aboard the station under Virts’ command. Along with his crewmates Anton Shkaplerov of Roscosmos and Samantha Cristoforetti of ESA (European Space Agency), the three-person crew will operate
the station for two weeks until the arrival of three new crew members.</div>
<div>NASA astronaut Scott Kelly and Russian cosmonauts Mikhail Kornienko and Gennady Padalka, are scheduled to launch from Baikonur, Kazakhstan, March 27 U.S. time (March 28 Kazakh time). Kelly and Kornienko will spend a year aboard the complex collecting valuable
biomedical data that will inform future deep space, long-duration missions.</div>
<div>For the NASA TV schedule and coordinate information, visit:</div>
<div><a href="http://www.nasa.gov/nasatv"><font color="#0563C1"><b><u>http://www.nasa.gov/nasatv</u></b></font></a></div>
<div>For b-roll and other media resources, visit:</div>
<div><a href="http://www.nasa.gov/stationnews"><font color="#0563C1"><b><u>http://www.nasa.gov/stationnews</u></b></font></a></div>
<div>For more information about the International Space Station, visit:</div>
<div><a href="http://www.nasa.gov/station"><font color="#0563C1"><b><u>http://www.nasa.gov/station</u></b></font></a></div>
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<div><b>NASA’s Chandra Observatory Finds Cosmic Showers Halt Galaxy Growth </b></div>
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<div>A study of over 200 galaxy clusters, including Abell 2597 shown here, with NASA’s Chandra X-ray Observatory has revealed how an unusual form of cosmic precipitation stifles star formation. </div>
<div><b><i>Image Credit: NASA/CXC/DSS/Magellan</i></b></div>
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<div>Using NASA’s Chandra X-ray Observatory, astronomers have found that the growth of galaxies containing supermassive black holes can be slowed down by a phenomenon referred to as cosmic precipitation.</div>
<div>Cosmic precipitation is not a weather event, as we commonly associate the word -- rain, sleet, or snow. Rather, it is a mechanism that allows hot gas to produce showers of cool gas clouds that fall into a galaxy. Researchers have analyzed X-rays from more
than 200 galaxy clusters, and believe that this gaseous precipitation is key to understanding how giant black holes affect the growth of galaxies.</div>
<div>“We know that precipitation can slow us down on our way to work,” said Mark Voit of Michigan State University (MSU) in East Lansing, lead author of the paper that appears in the latest issue of Nature. “Now we have evidence that it can also slow down star
formation in galaxies with huge black holes.”</div>
<div>Astronomers have long pursued the quest to understand how supermassive black holes, which can be millions or even billions of times the mass of the sun, affect their host galaxies.</div>
<div>“We’ve known for quite some time that supermassive black holes influence the growth of their host galaxies, but we haven’t yet figured out all of the details,” said co-author Megan Donahue, also of MSU. “These results get us a step closer.”</div>
<div>The study looked at some of the largest known galaxies lying in the middle of galaxy clusters. These galaxies are embedded in enormous atmospheres of hot gas. This hot gas should cool and many stars should then form. However, observations show that something
is hindering the star birth.</div>
<div>The answer appears to lie with the supermassive black holes at the centers of the large galaxies. Under specific conditions, clumps of gas can radiate away their energy and form cool clouds that mix with surrounding hot gas. Some of these clouds form stars,
but others rain onto the supermassive black hole, triggering jets of energetic particles that push against the falling gas and reheat it, preventing more stars from forming. This cycle of cooling and heating creates a feedback loop that regulates the growth
of the galaxies.</div>
<div>“We can say that a typical weather forecast for the center of a massive galaxy is this: cloudy with a chance of heat from a huge black hole,” said co-author Greg Bryan of Columbia University in New York.</div>
<div>Voit and his colleagues used Chandra data to estimate how long it should take for the gas to cool at different distances from the black holes in the study. Using that information, they were able to accurately predict the “weather” around each of the black
holes.</div>
<div>They found that the precipitation feedback loop driven by energy produced by the black hole jets prevents the showers of cold clouds from getting too strong. The Chandra data indicate the regulation of this precipitation has been going on for the last
7 billion years or more.</div>
<div>“Without these black holes and their jets, the central galaxies of galaxy clusters would have many more stars than they do today,” said co-author Michael McDonald of the Massachusetts Institute of Technology in Cambridge.</div>
<div>While a rain of cool clouds appears to play a key role in regulating the growth of some galaxies, the researchers have found other galaxies where the cosmic precipitation had shut off. The intense heat in these central galaxies, possibly from colliding
with another galaxy cluster, likely “dried up” the precipitation around the black hole.</div>
<div>Future studies will test whether this precipitation-black hole feedback process also regulates star formation in smaller galaxies, including our own Milky Way galaxy.</div>
<div>A pre-print of the Nature study is available online. The study builds on work by Voit and Donahue that was published in the Jan. 20 issue of The Astrophysical Journal Letters and also is available online.</div>
<div>NASA's Marshall Space Flight Center in Huntsville, Alabama, manages the Chandra program for the agency’s Science Mission Directorate in Washington. The Smithsonian Astrophysical Observatory in Cambridge, Massachusetts, controls Chandra's science and flight
operations.</div>
<div>An interactive image, podcast, and video about these findings are available at:</div>
<div><a href="http://chandra.si.edu"><font color="#0563C1"><b><u>http://chandra.si.edu</u></b></font></a></div>
<div>For more Chandra images, multimedia and related materials, visit:</div>
<div><a href="http://www.nasa.gov/chandra"><font color="#0563C1"><b><u>http://www.nasa.gov/chandra</u></b></font></a></div>
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<div><b>NASA, Honeywell Bring Hip-Hop Education Show to Northeast U.S. Schools </b></div>
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<div>NASA and Honeywell kicks off the spring 2015 tour of "FMA Live! Forces in Motion" Monday with shows at Talley Middle School in Wilmington, Delaware, marking the 11th year of this innovative collaboration designed to ignite students' interest in science,
technology, engineering and math (STEM).</div>
<div>FMA Live! is a high-energy, live stage show that features actors, hip-hop dance, music videos, interactive scientific demonstrations and video interviews with NASA scientists to teach Sir Isaac Newton's three laws of motion and universal laws of gravity.
The name of the show comes from Newton’s second law of motion: force = mass x acceleration.</div>
<div>"This innovative collaboration between NASA and Honeywell has been immensely successful over the past decade," said Donald James, NASA’s associate administrator for Education. "The combination of exciting, NASA-unique content and a dynamic stage performance
is a proven formula for helping students grasp the fundamentals of physics. Together, we are inspiring the next generation of scientists, engineers and explorers."</div>
<div>Research shows interactive, experiential learning is the most effective way to engage students in STEM studies. A major goal of FMA Live! is to compel middle school students to pursue STEM academic coursework and ultimately seek careers in STEM-related
fields.</div>
<div>Since its inception in 2004, FMA Live! has reached more than 400,000 middle school students across the United States, as well as students in Canada and Mexico.</div>
<div>Over the course of the next 10 weeks, the show, under the direction of Honeywell Hometown Solutions, will travel to 30 public, private and Department of Defense-affiliated middle schools in 10 states: Delaware, Pennsylvania, New Jersey, New York, Connecticut,
Rhode Island, Massachusetts, New Hampshire, Vermont and Maine. FMA Live! will return in the fall with a tour of Midwest states.</div>
<div>"As a technology-based company, it’s our goal to prepare the next generation of engineers, scientists and innovators, but to do that, you have to capture a student’s interest," said Mike Bennett, president of Honeywell Hometown Solutions. "With FMA Live!
Forces in Motion, students are actually experiencing science and technology firsthand, rather than reading about it in a text book. This show helps students understand how science and technology apply to their everyday lives."</div>
<div>NASA is committed to using the agency's unique assets, programs and facilities to inspire students to pursue STEM studies and careers. NASA’s Office of Education collaborates with a wide variety of organizations from academia, industry and government to
reach learners and educators across the United States.</div>
<div>To learn more about FMA Live! and the 2015 tour, visit:</div>
<div><a href="http://fmalive.honeywell.com"><font color="#0563C1"><b><u>http://fmalive.honeywell.com</u></b></font></a></div>
<div>To learn more about NASA's educations program, visit:</div>
<div><a href="http://www.nasa.gov/education"><font color="#0563C1"><b><u>http://www.nasa.gov/education</u></b></font></a></div>
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<div>SHUTTLE DOCKED AT THE ISS....I hope you enjoy these “look backs” as much as me </div>
<div><img src="cid:0ADC907113EEC0448B2894F8ED3C8D56@mail.nasa.gov"> </div>
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