To install click the Add extension button. That's it.

The source code for the WIKI 2 extension is being checked by specialists of the Mozilla Foundation, Google, and Apple. You could also do it yourself at any point in time.

How to transfigure the Wikipedia

Would you like Wikipedia to always look as professional and up-to-date? We have created a browser extension. It will enhance any encyclopedic page you visit with the magic of the WIKI 2 technology.

Try it — you can delete it anytime.

Install in 5 seconds
4,5
Kelly Slayton
Congratulations on this excellent venture… what a great idea!
Alexander Grigorievskiy
I use WIKI 2 every day and almost forgot how the original Wikipedia looks like.
What we do. Every page goes through several hundred of perfecting techniques; in live mode. Quite the same Wikipedia. Just better.
Great Wikipedia has got greater.
.
Leo
Newton
Brights
Milds

Ed Lu

From Wikipedia, the free encyclopedia

In this Chinese name, the family name is Lu.
Ed Lu
卢杰
Born
Edward Tsang Lu

(1963-07-01) July 1, 1963 (age 60)
Springfield, Massachusetts, U.S.
EducationCornell University (BS)
Stanford University (MS, PhD)
Space career
NASA astronaut
Time in space
205d 23h 18m
SelectionNASA Group 15 (1994)
MissionsSTS-84
STS-106
Soyuz TMA-2 (Expedition 7)
Mission insignia
Scientific career
FieldsSolar physics
ThesisThe Evolution of Energetic Particles and the Emitted Radiation in Solar Flares (1989)

Edward Tsang "Ed" Lu (simplified Chinese: 卢杰; traditional Chinese: 盧傑; pinyin: Lú Jié; born July 1, 1963) is an American physicist and former NASA astronaut. He flew on two Space Shuttle flights, and made an extended stay aboard the International Space Station.[1]

In 2007, Lu retired from NASA to become the program manager of Google's Advanced Projects Team.[2][3] In 2002, while still at NASA, Lu co-founded the B612 Foundation, dedicated to protecting the Earth from asteroid strikes, later serving as its chairman.[1] As of 2020, he is its executive director.[4]

YouTube Encyclopedic

  • 1/5
    Views:
    93 539
    4 769
    1 509
    568
    334
  • Changing the course of the solar system | Ed Lu | TEDxMarin
  • Oceans of Robots: Ed Lu at TEDxSF
  • Cosmic Conversation with Ed Lu | California Academy of Sciences
  • Charting the High Frontier of Space | Ed Lu
  • Anthropocene Astronomy: Thwarting Dangerous Asteroids Begins with Finding Them | Ed Lu

Transcription

Thanks. My name is Ed Lu, and I'm building a space telescope, together with the B612 Foundation. (Applause) It's called Sentinel, and simply put, its mission is to protect the Earth. In 2018 we're going to launch this thing, and it's big, by the way, it's about the size of a FedEx delivery van. We're going to launch into an orbit around the Sun. So it's going to be about 500,000 times further from the Earth than the Hubble space telescope. And we are going to find and track threatening asteroids before they find us. How'd we end up on this crazy quest, other than the fact that everybody needs a space telescope? Right? Our organization started out about 10 years ago. We started it with a different goal, we were working with a different project, related. And then something happened about a year and a half ago. Interesting, a guy came up and asked me a question, and it crystallized our thinking. What we realized is that we had to change our course, and that we had no choice but to actually do this, instead. And I want to tell you the story about how we ended up there and what we're doing. Why should you care about asteroids? Well, if you're a scientist, they're very, very interesting, they're parts, left over parts of the solar system from the formation of it. But if you're a citizen of planet Earth, and you all are, I hope, (Laughter) asteroids are important because they hit the Earth. So if you roll this video, anybody here has ever seen an asteroid impact site? They're all over the Earth. These are some of the known ones on planet Earth. An awful lot, it's kind of a surprising lot? But there's way more than this. They hit the Earth all the time. Just look up at the Moon. The Moon is covered in craters, and actually the Earth is hit more often than the Moon. So the reason you don't actually see them on the Earth is because they get covered up by the ocean, or wind and weather, and things like that get rid of them. They sometimes actually hit the Earth, even in modern times. 1908 Tunguska, this is the aftermath. It looks like a bunch of telephone poles laying on its side. This is an impact site called Tunguska. It's thankfully in Siberia, where an asteroid, fairly small, about 40 meters across -- so I would say that's about the size of this room -- it hit in Siberia moving at a velocity of about 20 kilometers per second. Anybody here whoever took High School physics knows that the energy is one half M V squared. When you have a big number and you square it, you get a huge number, and that was an enormous amount of energy. It was about a thousand times larger than the energy in the bomb dropped on Hiroshima. So, it wiped out a huge area. It's about 2,500 square kilometers of total destruction. So, for example, just to put that in perspective, if you drew a circle between the Golden Gate Bridge and San Jose, it took about that size. That's the area that was wiped out. Again, a thousand times larger than the Hiroshima bomb. That was only 100 years ago. These hit the Earth about every 100 to 200 years. So, flip a coin, that's the odds that somewhere on Earth, during your lifetime, it's going to happen again. Random spot, most of the world's unpopulated, but wouldn't it be a shame if it was a populated area? (Laughter) About 10 years ago, we decided that we'd work on the problem of deflecting asteroids. There was a bunch of really bad Hollywood movies out. Armageddon, Deep Impact, we thought we'd be the heroes, we're going to figure out how to deflect an asteroid. And if you roll this little movie, over the last 10 years, we together with a lot of other scientists, have worked on this problem, and now we understand that it's actually not that difficult to deflect an asteroid. What you have to do is either run into it with a spacecraft, like this, and boom! You actually change the velocity slightly. It's like playing billiards. It turns out that with sufficient notice you only need to change the velocity of an asteroid by about a millimeter per second to turn a hit into a miss, if you do it early enough. A millimeter per second. That's about this fast. Okay? So you don't need to change the velocity a lot, you don't need oil miners, and Bruce Willis, and stuff. (Laughter) It turns out that there are actually even controllable ways of doing this. If we take the next video here. This is something that me and another astronaut, named Stan Love, yes he is Doctor Love, invented. It's called a gravity tractor. It's very, very simple. You just hover a spacecraft nearby, and the mutual attraction of gravity between them, very, very tiny, adds up and if you can hover for months, so if you run this, you'll see that you can actually tow asteroids and give them the required fraction of a millimeter per second needed to precisely put this where you want. What we realized after about 10 years of working on this, and the community has realized, is that deflecting asteroids is actually not that hard. We actually have the technology to do things like this. So what's the problem? The problem is, if you don't know where asteroids are, there's nothing you can do about it, right? As my friend Don Yeomans likes to say, "The 3 rules of deflecting asteroids are: Find them early, find them early, and find them early." So let's look at the big picture. What does the Solar System look like? If you could run this... The green circle there is the orbit of the Earth, and then you can see the orbits of the other planets. And these are all the known asteroids, and these are actual real positions. (audience murmuring) The wizards at the California Academy of Sciences put this together, these are real orbits. All of this is real data, those are the locations of all the known asteroids. So the Earth again, look at the green line. You see all the stuff flying around. It's a very crowded place in our Solar System. It's a little deceptive, because you have to make them bigger so you can see it, but very, very crowded. That's the good -- So here's the bad news, though. We know what tiny area of the Solar System we've actually surveyed thus far, we know that it's not very much. There's a hundred times more than you see here. And those are undiscovered right now, and we really have no way to discover them from the ground. So what does the real Solar System look like? Multiply this by 100 and you get what the real Solar System looks like, it looks like this. This is actually the situation -- follow the green line of the Earth, and follow all the things that go whizzing past the Earth. Every time you hear in the news that an asteroid has whizzed past the Earth you should think, "So what, it's happening all the time, 99 out of 100 we don't know about." So that's what the situation looks like in the Solar System, and that's what we want to change. Because if you know where every single one of these is, we can tell you where it's going. Because we understand something called "Orbital Mechanics". It turns out that if you tell me the velocity and the location of each one of these things, I'll tell you where it is any point out in the future. Okay, that's how we send probes to Mars, for instance. We ended up in a situation where we know how to deflect asteroids, but we're not looking for them. We're driving around the Solar System with our eyes closed, essentially. And that seems kind of crazy, right? Because these things do hit the Earth, as evidenced by this guy here. As you all know, an asteroid impact is what wiped out the dinosaurs and we don't want to be like him. I saw a T-shirt the other day that said, "Asteroids are nature's way of saying, 'How's that space program coming?'" (Laughter) So -- (Applause) I was giving a talk about this very subject, down in Mountain View at a large company that rhymes with "Oogle". (Laughter) I was basically telling this whole sad story saying we know how to deflect asteroids, but basically nobody's funding, the government has no plans, the government's broke anyhow, and we're not looking for asteroids. So the next large asteroid that hits the Earth is in all likelihood just going to hit us and that will be what happens, we'll take what we get, but isn't it kind of crazy that we actually know how to do this, know how to deflect it, but we're not doing it? And something interesting happened. After the talk, a guy came up to me and he said -- I described that we actually knew how to actually find all these asteroids too, so you actually can't find them from the Earth. You need to put a space telescope out, orbiting around the Sun and so on. And he said to me, "How much does a space telescope like that cost?" I said, "Well, they're expensive, the government's not doing this, it's $300 million, blah, blah, blah." The guy looked at me and he said, "So why don't you do it yourself?" And I was taken aback. "What do you mean, how can we do this?" He goes, "Well, I just donated money to a museum in San Francisco, the Museum of Modern Art. We're building a new wing, we're supporting that. We're raising more money than that. We're going to build the wing of an art museum. The people of San Francisco have come together. In about 5 or 6 years, we're going to do it, nobody has any doubt. So if we can do that, if we can build the wing of an art museum, for less money, could you raise it and do it yourself?" And I think the answer's yes. So, we -- (Applause) have gone out, we've been raising the money and we've hired people and we're doing just that. (Audience member) Thanks! (Laughter) You're welcome! (Applause) We just had our first major design review, things are moving along. And if you could run this video... This is the spacecraft, it's called Sentinel. Again, it's large, it weighs 2,630 pounds, and it is going to orbit the Sun, and it is going to view the Solar System in infrared. Infrared is basically heat, where asteroids are bright, and it is going to find these moving objects. This is the view from Sentinel, and it will see these moving objects and it will track them. And it is going to discover each and every month, over 10,000 asteroids. Now all other telescopes combined throughout history have sum total discovered about 10,000 asteroids. So we're going to surpass that in month 1. So what are we going to find? We're going to find about a half a million asteroids when we're done, and we're going to know where they all are, where they're going, which ones are coming near Earth, and which ones may actually threaten the Earth. And that's plenty of time to go out there and deflect them. This is our plan. So let me show you a little bit about why it has to be orbiting the Sun. If you think about it, you don't want to be on the Earth because you can't look -- half the time those things flying past the Earth were between the Earth and the Sun, and telescopes don't work very well pointing at the Sun. So if you look at that white pie slice, that is the view from the area that can be seen by Sentinel. And you see that as it goes around the Sun, it sweeps out an area and it's sometimes on the opposite side of the Sun as the Earth, and that is the trick to finding all these asteroids. So again, 2018 is our launch date. We've put together a team of folks, and we're going to buy a rocket from SpaceX. And we're going to put this thing out there, and we're going to find all these asteroids. So -- (Applause) What's the big picture here? I mean, to me the really cool part about this is, that we're living in a really special time. I mean civilization's about, what 10,000 years old, right? 10,000 years ago, people learned how to grow things, agriculture and so on. And here we are, 10,000 years later, we have figured out the laws of orbital mechanics, we've figured out rocketry, astronomy, mathematics, and so on, and what's all that for, if it's not to protect the Earth, right, if it's not to protect ourselves? We actually know how -- we believe we know how to go out there and measure our environment, find out what's out there, amongst all the stuff orbiting the Sun, and protect our own planet, and when something is on its way to hitting the Earth to actually change the evolution of the Solar System. So think about that, that's actually fairly, fairly amazing, right. I mean -- hairless monkeys from the 3rd planet have figured out a way to keep their planet from being struck again. Okay, and we've only just reached this point, and even more amazing to me is that we've reached the point where -- because of advances in rocketry, and computing power, and infrared detectors, and so on -- that we're actually at the point where a private organization can just go do it. Like that guy asked me, "Why don't you just go do it?" The answer is, there's no reason why we shouldn't just go do it. So here we are. Thank you very much. (Applause) (Cheering)

Education

Raised in Webster, New York, to a Chinese-American family. Lu attended R. L. Thomas High School, where he was a member of the wrestling team and graduated in 1980. Later, Lu earned a degree in electrical engineering from Cornell University where he lettered in wrestling. He then received a doctoral degree in applied physics from Stanford University in 1989.[1] Lu is a member of the Psi chapter of Pi Kappa Phi fraternity at Cornell.

Lu became a specialist in solar physics and did postdoctoral work at the Institute for Astronomy in Honolulu, Hawaii before being selected for the NASA Astronaut Corps in 1994.[1]

NASA career

Lu flew on Space Shuttle missions STS-84 in 1997 and STS-106 in 2000, in which he carried out a six-hour spacewalk to perform construction work on the International Space Station. Having been flight engineer on Soyuz TMA-2, Lu spent six months in space in 2003 as part of ISS Expedition 7, with cosmonaut Yuri Malenchenko.[1]

In July 2003, Lu and Malenchenko answered questions from students participating in Japan's NASDA special educational event, where Ed Lu performed "Happy Birthday" on an electronic piano for a student's birthday in the live broadcast from space.[5][6] He had demonstrated the difficulty of playing the piano instrument in space during a live in-orbit interview with CBS News and NASA TV video feed.[7] Also on this ISS mission on 15 October 2003, Lu communicated with the crewman of China's first crewed mission into space, Yang Liwei, flying aboard Shenzhou 5. Lu congratulated the Chinese for the achievement and said in Putonghua: "Welcome to space. Have a safe journey". Malenchenko added: "I love to have somebody else in space instead of (just) me and Ed".[8]

While still employed at NASA, Lu co-founded the B612 Foundation along with former astronaut Rusty Schweickart and scientists Clark Chapman and Piet Hut. It has conducted two lines of related research to help detect asteroids that could one day strike the Earth, and find the technological means for asteroid deflection. The foundation's current goal is to design and build a privately financed asteroid-finding space telescope, Sentinel, to be launched in 2017–2018. The Sentinel's infrared telescope, once parked in an orbit similar to that of Venus, will help identify asteroids and other near-Earth objects (NEOs) that pose a risk of collision with Earth.[1]

Magic trick in space

While on the ISS, Lu teamed up with magician James Randi (founder of JREF) to perform a card trick in outer space. Randi asked Lu to (without looking) select a card from the middle of a brand new freshly shuffled deck of cards, turn it around and reinsert the card into the deck the opposite direction. Then place the deck of cards back into its box then take them out again and fan the cards to the camera. This same procedure was being done by Randi back on Earth at the JREF headquarters in front of witnesses from the Miami Herald. Both Randi and Lu successfully selected the same card, the seven of diamonds. The remaining cards were jettisoned for weight reasons before returning to Earth, but Lu smuggled the card home. The two cards complete with autographs are framed for public view at the JREF offices in Fort Lauderdale, FL. Randi asks Lu "What are the odds that we would both choose the same card?" Lu answers "Knowing you and your tricky ways, the odds were one in one, because it's a trick!"[9]

Post-NASA career

Lu in 2022

On August 10, 2007, Lu announced he was retiring from NASA to work at Google.[1][2]

In June 2010, Lu left Google and worked out of the Sunfire Offices.[10] In September 2011, Lu joined Liquid Robotics as Chief of Innovative Applications, where his work includes outreach to promote new applications for ocean science,[11] and in 2012, he joined Hover Inc. as its Chief Technology Officer.[12]

On June 28, 2012, Lu, with Apollo 9 Astronaut Rusty Schweickart and G. Scott Hubbard, Astronautics professor at Stanford University announced plans to build and operate the first privately-funded deep space mission called Sentinel. Their non-profit B612 Foundation will launch an infrared space telescope in orbit around the Sun, where from a distance as great as 270,000,000 kilometers (170,000,000 mi) from Earth, where it would detect and track asteroids and other near-Earth objects posing threats to the planet. On October 25, 2016 B612 and Lu endorsed NASA's NEOcam proposed mission and ended the Sentinel project.

As of 2022. Lu is working on a new project to find "killer asteroids" by analyzing terabytes of archived data. So far, the B612 Foundation, cofounded by Lu, has found over 100 new potentially-threatening asteroids. This immense number-crunching effort is supported in part by Google's applied artificial intelligence project.[13]

Additionally, he is currently married and has two children.

Personal life

  • co-founder of the B612 Foundation (18 July 2014)
    co-founder of the B612 Foundation (18 July 2014)
  • Assessing the Risks, Impacts and Solutions for Space Threats, Senate Subcommittee on Science and Space testimony on March 23, 2013
  • Ed Lu giving interview for Croatian Television during Dalmatian Space Summer (21 August 2007)
    Ed Lu giving interview for Croatian Television during Dalmatian Space Summer (21 August 2007)
  • Landing in Kazakhstan (October 27, 2003)
    Landing in Kazakhstan (October 27, 2003)
  • Haircut in space (12 August 2003)
    Haircut in space (12 August 2003)

See also

References

Public Domain This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.

  1. ^ a b c d e f g "EDWARD TSANG LU (PH.D.), NASA ASTRONAUT (FORMER)" (PDF). NASA. August 2007. Retrieved April 12, 2021.
  2. ^ a b Beutel, Allard (2007-08-10). "Astronaut Ed Lu Leaves NASA". NASA. Archived from the original on 2021-03-17. Retrieved 2007-08-12.
  3. ^ "Google Unveils New Maps Features Amid Apple Fight". Silicon Valley News. June 6, 2012. Archived from the original on July 14, 2014. Retrieved July 1, 2012.
  4. ^ "Our Team".
  5. ^ Expedition 7 Video Index Archived 2011-10-30 at the Wayback Machine
  6. ^ "Lu Video from Space - Happy Birthday". Archived from the original on 2012-05-31. Retrieved 2011-04-03.
  7. ^ Piano in space – YouTube
  8. ^ NASA – Expedition 7 Crew Members Welcome China to Space
  9. ^ Card Trick in Space ~ Ed Lu & Randi – YouTube
  10. ^ Sunfire Offices Archived 2012-09-11 at archive.today
  11. ^ "Edward T. Lu Joins Liquid Robotics as Chief of Innovative Applications (USA)". OffshoreEnergy.biz. September 16, 2011. Retrieved January 2, 2023.
  12. ^ "Google Unveils New Maps Features Amid Apple Fight". Silicon Valley News. June 6, 2012. Archived from the original on July 14, 2014. Retrieved July 1, 2012.
  13. ^ "Killer Asteroids Are Hiding in Plain Sight.", article by Kenneth Chang, New York Times, May 31, 2022

External links

Wikimedia Commons has media related to Ed Lu.
This page was last edited on 1 March 2024, at 19:07
Basis of this page is in Wikipedia. Text is available under the CC BY-SA 3.0 Unported License. Non-text media are available under their specified licenses. Wikipedia® is a registered trademark of the Wikimedia Foundation, Inc. WIKI 2 is an independent company and has no affiliation with Wikimedia Foundation.
Contact WIKI 2
Introduction
Terms of Service
Privacy Policy