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Daily Archives: October 6, 2022
I’m not optimistic about the future of the global economy and I don’t expect the next 10 years to be particularly good – CTech
Posted: October 6, 2022 at 12:57 pm
Prof. Daron Acemoglu of MIT is considered one of the three most important, prominent and quoted economists today - and there is no prize, title or summit that he has not conquered, with the exception of one, the Nobel Prize for Economics, which is likely to be awarded to him in the coming weeks, according to estimates.
It is worth listening to what he has to say because today there is no academic or researcher with a reputation like that of Acemoglu - a Turkish-American of Armenian origin - who is an expert in the main issues of international political economy, including the influence of political and economic institutions on the main macroeconomic variables: growth, economic development and inequality.
Since bursting onto the scene in his early 30s with his book "The Colonial Origins of Comparative Development", Acemoglu has tried and quite succeeded to answer a question that has occupied economists from the beginning of time: What are the factors that explain the existing differences in the wealth of countries.
2 View gallery
Prof. Daron Acemoglu.
(Photo: Augustin Iglesias )
In 2012 he published another book, "Why Nations Fail?", in which he reached a similar conclusion: political institutions - not culture, natural resources or geography - explain why some countries have become rich while others have remained poor. This is the reason why Acemoglu is considered one of the prominent representatives of institutional economics - a segment in the science of economics that emphasizes the importance of social and political institutions in economic developments. In recent years, he has spent most of his time analyzing the technological changes and the effect of automation on employment and growth, and teaching and raising new generations of economists.
Acemoglu answers the question of whether he now recognizes the beginning of a "new era" with an absolute no. This comes on the back the words of the famous economist Nouriel Roubini, the "prophet of rage" of the global economy, who wrote about two months ago that we are moving from a "great moderation" - a period that began in the 1980s and was characterized by a sharp decrease in macroeconomic volatility - to a "great stagflation".
"I never believed in the theory of the great moderation. In my eyes, what is called the great moderation was a period of building huge financial risks, including in the global supply chain," he says. "There were more obvious risks and there were some more hidden from view. What's more, I'm not optimistic about the future of the global economy and I don't expect the next ten years to be particularly good."
"There are many problems - a crisis in democracy, a crisis in globalization, and a crisis in inequality - and they are of course the result of the current political path we are on. These problems are the result of ongoing trends from the past and they continue to erode the existing institutions. So if you want to call it a new era' - you are welcome. But I would not extend it to 2019, nor to 2020. I am of course very disturbed by those dangerous trends, both political and economic, which are becoming even more dangerous now. By the way, I would not count inflation as one of them."
We will talk about inflation, but from your angle: as one of the prominent economists, does its dramatic jump not constitute an important opportunity to bring about a revision in the powers of one of the most important economic institutions today - the central banks?
"I am divided within myself because the current inflation makes me think about two things that conflict with each other. On the one hand, curbing inflation is important because given the market mechanisms, it is a huge 'trust breaker'. When inflation is high, the public begins to lose trust in the system, in money and in the market mechanism. For some it's a conscious and rational process, and for many it's not. When does it happen? Is it when inflation is 2%? I don't think so. When it's 4%? Maybe, but I don't think so either. If it crosses 10%? Probably yes."
Acemoglu, who is Turkish and was in Turkey at the time of the interview, emphasizes that "the Turks lived for two decades with almost 100% inflation. The danger is that trust in the system could be destroyed. This is a real threat and it is a much more significant threat to democracy and the fight against populism than it is to the cost of living itself. That is why the anti-inflation fight is essential. On the other hand, I am always suspicious of technocrats who take over something and there is no balancing democratic mechanism."
According to him, central banks in democratic regimes are the ultimate example of this. It is clear to all of us that people without knowledge or economic background cannot make decisions, design policies or establish monetary regulation. However, the complete absence of democratic inputs on a critical issue, which is what to do with the money and how much of it should there be - is a problematic thing. Not only because sometimes it succeeds and sometimes it doesn't - but because sometimes they may serve certain groups at the expense of other groups, without even admitting it or noticing it."
How do you resolve these issues?
"It's complex and this complexity receives a lot of attention in these historical moments. I don't have the answer."
You mentioned inflation, inequality, financial risks, a crisis in globalization - these are all a proven recipe for the strengthening and rise of "populism".
"Absolutely. This is one of my biggest concerns. I would only frame the phenomenon under a larger heading: the deterioration of democracy. This is reflected in the deterioration in every parameter that is examined and in every index that indicates the health and robustness of democracy. We are already in a sequence of about 16 years in which the existing democracies are weakening, More countries are abandoning the democratic regime, trust in democratic institutions is declining and it is already at a low level. In addition, political polarization is high, there is a wider place for extreme opinions, and the public's ability to analyze political facts is lower. Populists, mainly on the right, offer a new guide to the perplexed after learning from one another. In addition, inequality has been rising for a long time in the U.S., the UK and Israel, and has reached levels that fuel frustration and dissatisfaction. All these things are warning lights for democracy. That's why I said earlier that I don't think inflation is the ultimate challenge now, but that it is another straw. It is not clear which of all the difficulties I mentioned will finally break the camel's back."
The populists use this inflation as a political tool for personal gain and for the purpose of crushing trust in many institutions. Benjamin Netanyahu is building his entire election campaign on the cost of living and the temporarily high inflation - even though he was in power for 12 years and under his reign the cost of living skyrocketed.
"Bibi is the founding father of right-wing populism. He, along with Italys Silvio Berlusconi, began concocting the methods upon which many others were later built, such as Marine Le Pen, Donald Trump and even Boris Johnson, to a certain extent. Therefore, I am not at all surprised thats how he works. It is clear that he will pull the discourse in these directions because it is much easier to sell 'negative' than 'positive'. It is much easier to say 'I am against' instead of offering what you are in favor of. It is much more difficult to carry out reforms that mean creating 'winners and losers' who tomorrow may oppose you. It is clear that Israel too - similar to the USA and the UK - stands at a critical point where it must strengthen its institutions and decide on the direction of its policy. Not only its foreign policy, but especially its domestic policy, including its economic policy."
One of the amazing and sad things now is that in preparation for the upcoming elections in Israel there is no real, deep, meaningful economic discourse. There is no ideological debate. Everything is quite hollow, emotional and above all personal.
"This is an extremely disturbing development because one of the strongest impressions I got the last time I was in Israel, and that was not long ago, is that this is a population that is very involved in the discourse and in shaping the policy. And I am talking about a very high level of intervention and participation in the democratic process, even more than in a large number of European countries. I really hope you don't lose this value within one generation."
2 View gallery
Donald Trump (from right), Marine Le Pen, and Benjamin Netanyahu.
(Photo: Alex Kolomoysky, Reuters, AFP)
The political processes you describe have an effect on the economy. How does the rise of populism affect long-term economic growth for example?
"There is definitely an effect and it is very bad. Limiting inequality creates a kind of prosperity that is more spread over more groups, and this is more possible when the institutions are democratic. All the regimes that emerged from the populist right have been a very bad combination of corruption, inefficiency and inaction. It is very difficult for me to see such regimes bringing any kind of benefit or good news in terms of growth, infrastructure, innovation, education, science. Bolsonaro, the president of Brazil, has set Brazil back environmentally but also institutionally. So did Trump in the USA. Netanyahu in Israel has also caused quite a lot of damage to Israeli institutions as it appears from the outside. And so too with Marine Le Pen, Johnson, and Duterte in the Philippines."
Another phenomenon that is now accelerating and disturbing is the rapid retreat of globalization. How does this affect long-term economic growth?
"I am an expert in the consequences of technological changes and automation on inequality, and there are three common denominators between these issues and globalization that are relevant to our conversation. First, both globalization and technology were presented as 'gifts' to humanity that would free everyone from the cycle of poverty, improve everyone's standard of living and empower us. We know this is not true. Second, both have been presented as 'neutral' phenomena whose trajectory is determined by economic science or other existing knowledge. We know that there was 'selection' in the trajectory and there were many alternative promotion trajectories. For example, you may decide that you will indeed use Israeli technology as a tool for monitoring your citizens and you can decide otherwise. In the same way you can decide that globalization does not have to be a tool for prioritizing capital at the expense of labor and employees. The route or type of globalization that happened in the end was one that allowed the international corporations to arbitrage between the tax systems of the countries, and just as importantly, between differences in employment regulation and differences in workers' rights between different countries."
According to Esmoglu, the third common element between technology and automation and globalization is that the path chosen for their implementation served the powerful players in the system and fueled inequality, and therefore they also clashed head-on with all the ambitions and expectations they aroused at the beginning. "The developments on these two levels only intensify the current populist momentum. On the other hand, I do not think that there is an inherent characteristic - neither in globalization nor in technology and automation - that necessarily causes inequality. You can choose other paths of automation that benefit the working public to the same extent that you can choose other paths of globalization that produce different risks than those that exist today. The current economic reality was supposed to be an opportunity to 'do a different globalization', but I doubt that will happen due to the increase in geopolitical tension, the weakening of democratic institutions and the strengthening of regimes - such as in China and Russia - and their increasing influence in the international arena.
Speaking of China and Russia, many are already talking about the "Balkanization of the world" - splitting into several geopolitical blocs with separate trade, technology and currency systems. Do you think this is the end of the era of "hyper-globalization"?
"That's not what bothers me and that's not the real problem. At the end of the day, the interdependence between us is big enough and our problems are global enough, so that if the world becomes bipolar, tripolar or multipolar - our problems will be shared: the climate problems are shared, technologies will transfer from country to country, so are pandemics, as we have seen in the age of the Coronavirus. What is happening now, and this is a real problem, is that the current situation increases a double risk that works in the same direction: more likelihood of a real military conflict, and we see this in Ukraine and Taiwan. At the same time, a lower effectiveness among the international institutions to coordinate joint activity, to agree and settle conflicts and disagreements. This is the real problem."
Acemoglu emphasizes in this context that "we must admit that even in their good old days, the international institutions never enjoyed sufficient legitimacy and were not strong enough. Some of those international institutions were excessively lenient towards China, in the negative sense of the word, and some of them were too committed, sometimes in appearance and sometimes in practice, to U.S. interests and were not independent enough. All of this contributes to their current complex and dangerous situation."
Finally, what are your thoughts about "the great resignation". Is there really such a phenomenon, or is it a natural and permanent dropout of more and more unskilled workers who remain irrelevant and are forced to leave the labor market?
"Indeed, its an important question. This is a time of great confusion on this issue. The data shows a rapid increase in the wages of those unskilled, low-wage workers at the bottom of the income distribution in the U.S.. That's a really great thing because that hasn't happened in many, many decades in the U.S.. If that's the case, it may indicate a combination of increased demand for workers along with employment safety nets that protect those workers who will no longer be completely at the mercy of their employers. It's no longer 'Work at McDonald's for $6 an hour or starve to death'. Therefore, the conclusion is that wages at the bottom can indeed recover and this will be a great inspiration. On the other hand, we have seen how real wages lag behind inflation, so it is already less worth it if wages run but inflation runs faster.
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Atlas Shrugged Essay Contest – AynRand.org
Posted: at 12:56 pm
With adoring fans, fiery critics and very few in between, why does Atlas Shrugged evoke such impassioned responses? Because it grapples with the fundamental problems of human existence and presents radically new answers.
Atlas Shrugged, Ayn Rands last novel, is a dramatization of her unique vision of existence and of mans highest potential. Twelve years in the writing, it is her masterwork.
Is the pursuit of profit a noble enterprise or the root of all evil? Is sexual passion an exalted spiritual virtue or a dirty, animalistic vice? Is reason an absolute or is faith an alternative source of truth? Is self-esteem possible or are we consigned to a life of self-doubt and guilt? In what kind of society can an individual prosper, and in what kind of society is he doomed to the opposite fate?
Rands worldview emerges in the compelling plot turns of a mystery story, centered on the question Who is John Galt?
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Timeline of space exploration – Wikipedia
Posted: at 12:54 pm
DateMission successCountry/organizationMission nameRef(s)12 April 1981First Reusable crewed orbital spacecraft. USA (NASA)STS-11 March 1982First Venus soil samples and sound recording of another world. USSRVenera 1319 August 1982First mixed gender crew aboard space station, and first woman, Svetlana Savitskaya, on space station. USSRSalyut 725 January 1983First Infrared orbital observatory. USA (NASA) UK (SERC) Netherlands (NIVR)IRAS13 June 1983First spacecraft beyond the orbit of Neptune (first spacecraft to pass beyond all Solar System planets). USA (NASA)Pioneer 107 February 1984First untethered spacewalk, Bruce McCandless II. USA (NASA)STS-41-B25 July 1984First spacewalk by woman, Svetlana Savitskaya. USSRSalyut 711 June 1985First balloon deployed on another planet (Venus). USSRVega 124 January 1986First Uranus flyby (closest approach 81,500 kilometers (44,000nmi)). USA (NASA)Voyager 228 January 1986First major American space loss, the Space Shuttle Challenger disaster, an explosion soon after liftoff which killed, among others, Christa McAuliffe, a high school teacher. USA (NASA)STS-51-L19 February 1986First consistently inhabited long-term research space station. USSRMir4 March 1986First flyby of a comet (Halley's Comet, 8,889 kilometers). USSRVega 1 & Vega 213 March 1986First close up observations of a comet (Halley's Comet, 596 kilometers). ESAGiottoJuly 1988First suspected detection of an exoplanet Gamma Cephei Ab, although the discovery was retracted in 1994, and not confirmed until 2002.
Team of astronomers, led by Bruce Campbell, Gordon Walker, and Stephenson Yang; existence announced by Anthony Lawton & P. Wright in 1989
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A Brief History of Space Exploration | The Aerospace Corporation
Posted: at 12:54 pm
Humans have always looked up into the night sky and dreamed about space.
In the latter half of the 20th century, rockets were developed that were powerful enough to overcome the force of gravity to reach orbital velocities, paving the way for space exploration to become a reality.
In the 1930s and 1940s, Nazi Germany saw the possibilities of using long-distance rockets as weapons. Late in World War II, London was attacked by 200-mile-range V-2 missiles, which arched 60 miles high over the English Channel at more than 3,500 miles per hour. After World War II, the United States and the Soviet Union created their own missile programs.
On Oct. 4, 1957, the Soviets launched the first artificial satellite, Sputnik 1, into space. Four years later on April 12, 1961, Russian Lt. Yuri Gagarin became the first human to orbit Earth in Vostok 1. His flight lasted 108 minutes, and Gagarin reached an altitude of 327 kilometers (about 202 miles).
The first U.S. satellite, Explorer 1, went into orbit on Jan. 31, 1958. In 1961, Alan Shepard became the first American to fly into space. On Feb. 20, 1962, John Glenns historic flight made him the first American to orbit Earth.
Landing on the moon: Apollo 12 launches for second moon landing Nov. 14, 1969.
Landing a man on the moon and returning him safely to Earth within a decade was a national goal set by President John F. Kennedy in 1961. On July 20, 1969, astronaut Neil Armstrong took one giant leap for mankind as he stepped onto the moon. Six Apollo missions were made to explore the moon between 1969 and 1972.
During the 1960s, unmanned spacecraft photographed and probed the moon before astronauts ever landed. By the early 1970s, orbiting communications and navigation satellites were in everyday use, and the Mariner spacecraft was orbiting and mapping the surface of Mars. By the end of the decade, the Voyager spacecraft had sent back detailed images of Jupiter and Saturn, their rings, and their moons.
Skylab, Americas first space station, was a human-spaceflight highlight of the 1970s, as was the Apollo Soyuz Test Project, the worlds first internationally crewed (American and Russian) space mission.
In the 1980s, satellite communications expanded to carry television programs, and people were able to pick up the satellite signals on their home dish antennas. Satellites discovered an ozone hole over Antarctica, pinpointed forest fires, and gave us photographs of the nuclear power plant disaster at Chernobyl in 1986. Astronomical satellites found new stars and gave us a new view of the center of our galaxy.
In April 1981, the launch of the space shuttle Columbia ushered in a period of reliance on the reusable shuttle for most civilian and military space missions. Twenty-four successful shuttle launches fulfilled many scientific and military requirements until Jan. 28,1986, when just 73 seconds after liftoff, the space shuttle Challenger exploded. The crew of seven was killed, including Christa McAuliffe, a teacher from New Hampshire who would have been the first civilian in space.
The Space Shuttle was the first reusable spacecraft to carry people into orbit; launch, recover, and repair satellites; conduct cutting-edge research; and help build the International Space Station.
The Columbia disaster was the second shuttle tragedy. On Feb. 1, 2003, the shuttle broke apart while reentering the Earths atmosphere, killing all seven crew members. The disaster occurred over Texas, and only minutes before it was scheduled to land at the Kennedy Space Center. An investigation determined the catastrophe was caused by a piece of foam insulation that broke off the shuttles propellant tank and damaged the edge of the shuttles left wing. It was the second loss of a shuttle in 113 shuttle flights. After each of the disasters, space shuttle flight operations were suspended for more than two years.
Discovery was the first of the three active space shuttles to be retired, completing its final mission on March 9, 2011; Endeavour did so on June 1. The final shuttle mission was completed with the landing of Atlantis on July 21, 2011, closing the 30-year space shuttle program.
The Gulf War proved the value of satellites in modern conflicts. During this war, allied forces were able to use their control of the high ground of space to achieve a decisive advantage. Satellites were used to provide information on enemy troop formations and movements, early warning of enemy missile attacks, and precise navigation in the featureless desert terrain. The advantages of satellites allowed the coalition forces to quickly bring the war to a conclusion, saving many lives.
Space systems continue to become more and more integral to homeland defense, weather surveillance, communication, navigation, imaging, and remote sensing for chemicals, fires, and other disasters.
The International Space Station is a research laboratory in low Earth orbit. With many different partners contributing to its design and construction, this high-flying laboratory has become a symbol of cooperation in space exploration, with former competitors now working together.
The station has been continuously occupied since the arrival of Expedition 1 in November of 2000. The station is serviced by a variety of visiting spacecraft: the Russian Soyuz and Progress; the American Dragon and Cygnus; the Japanese H-II Transfer Vehicle; and formerly the Space Shuttle and the European Automated Transfer Vehicle. It has been visited by astronauts, cosmonauts, and space tourists from 17 different nations.
Space launch systems have been designed to reduce costs and improve dependability, safety, and reliability. Most U.S. military and scientific satellites are launched into orbit by a family of expendable launch vehicles designed for a variety of missions. Other nations have their own launch systems, and there is strong competition in the commercial launch market to develop the next generation of launch systems.
Modern space exploration is reaching areas once only dreamed about. Mars is focal point of modern space exploration, and manned Mars exploration is a long-term goal of the
United States. NASA is on a journey to Mars, with a goal of sending humans to the Red Planet in the 2030s.
NASA and its partners have sent orbiters, landers, and rovers, increasing our knowledge about the planet. The Curiosity Rover has gathered radiation data to protect astronauts, and the MARS 2020 Rover will study the availability of oxygen and other Martian resources.
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A Brief History of Space Exploration | The Aerospace Corporation
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Investing in Space: Houston, we have job openings – CNBC
Posted: at 12:54 pm
SpaceX's Falcon 9 rocket carrying Crew Dragon spacecraft Endurance launches the Crew-5 mission for NASA from Florida on Oct. 5, 2022.
Joel Kowsky | NASA
CNBC's Investing in Space newsletter offers aview into the business of space exploration and privatization, delivered straight to your inbox. CNBC's Michael Sheetz reports and curates the latest news, investor updates and exclusive interviews on the most important companies reaching new heights.Sign up to receive future editions.
In an increasingly tight labor market, the space sector is hiring. (Don't get too excited, the jobs are still Earth-bound.)
There are nearly 8,400 openings at "infrastructure" space companies, the likes of which build and operate rockets and spacecraft, according to venture firm Space Capital and its Space Talent database.
A lot of the new hires, according to Justus Kilian, partner at Space Capital, come from the tech sector, which has seen hiring freezes and job cuts as companies brace for economic downturn.
"You actually see talent floating around, because their skills are so transferable. They're going to each of these different industries, job after job, and just following each other working on the biggest, most exciting, most complicated problems," Kilian said.
Last week, Astra announced the appointment of new CFO Axel Martinez, with the company's current finance chief Kelyn Brannon transitioning out of the role later this year. Both Martinez and Brannon come from tech backgrounds.
But Kilian says the space sector often falls short in the competitive talent pool on vision and compensation. Space companies are often led by technical people "fixated on the technical problem" and lacking the ability to inspire, he said. And salary levels at big tech, robotics, autonomous vehicles, motorsports and telecommunications are hard to match.
"You're not competing with Google on salary you just can't," Kilian said. "You've got to be inspiring people around the thing they're building and why it matters."
There are regulatory hurdles in the U.S. space sector, too. International Traffic in Arms Regulations, or ITAR, essentially mean only American citizens, or foreigners with a green card, can access items on the U.S. Munitions List. That list mostly includes defense-related equipment and software, but widely covers rocket and spacecraft technologies, too.
While difficult to measure precisely how many jobs are ITAR-restricted, Kilian used SpaceX as a proxy and found that, of 977 roles listed by the company, 348 mentioned ITAR in the description or about 36%.
"Our best talent is foreign talent. Tech eats that up; aerospace loses because it can't recruit," Kilian said.
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National Air and Space Museum Reopens With Eight New Galleries Oct. 14 – Smithsonian Institution
Posted: at 12:54 pm
The Smithsonians National Air and Space Museum reopens Friday, Oct. 14, with eight new and renovated galleries in the west wing of its building in Washington, D.C. The planetarium and museum store will also reopen, along with the new Mars Caf. The east wing of the museum will remain closed while it is renovated. Free timed-entry passes are required to visit the west wing and can be reserved on the museums website.
We are thrilled to finally unveil the first part of the newly renovated museum, said Chris Browne, the John and Adrienne Mars Director of the museum. Visitors will have a more modern and engaging experience, visiting favorite icons as well as many new artifacts never before seen at the museum in D.C. We hope each visitor will see themselves in these exhibitions and that young people will be inspired by all that is possible in aviation and space exploration.
Exhibitions Opening Oct. 14:
The exhibitions will use creative and dynamic techniques to engage visitors while they are at the museum and after they leave. Instead of simply presenting information to visitors, the exhibitions will provide ways of engaging people through nearly 100 interactive and digital experiences. Some highlights include a tour of the solar system to learn what it would be like to walk on another world through an immersive, interactive experience in the Kenneth C. Griffin Exploring the Planets Gallery, and in One World Connected, visitors can look through a mockup of the cupola from the International Space Station (ISS) to experience the kind of view astronauts on the ISS have of the Earth. A variety of techniques and tools have also been implemented in the new galleries to make the interactives accessible to visitors with vision, hearing and mobility disabilities.
The renovated museum will feature hundreds of new artifacts to the building such as the WR-3 air racer built by Neal Loving, the first African American certified to race airplanes; a T-38 flown by Jackie Cochran, the first woman to break the sound barrier; and Sean Tuckers custom-built aerobatic biplane, the Aviation Specialties Unlimited Challenger III. Also displayed for the first time is the full-sized X-Wing Starfighter that appeared in Star Wars: The Rise of Skywalker, on loan from Lucasfilm, and a pair of prosthetic ear tips made for Leonard Nimoy to portray Mr. Spock in the original Star Trek series.
Visitors will see favorite artifacts presented in new settings. In the same gallery as the Apollo 11 command module, Alan Shepards Mercury spacesuit and the capsule he flew, Mercury Freedom 7, will be on display in Washington for the first time since 2015. The original 1903 Wright Flyer will be in a dynamic new environment that better tells the story of the invention of flying and its implication on world history.
The planetarium will offer significant upgrades to its technological capabilities and include new screencast abilities that will allow connection with planetariums around the country and vastly expand the museums reach.
The Mars Caf, a new offering to the museum, will have coffee and a full espresso bar, as well as seasonally inspired sandwiches, salads and pastries. The caf will be located on the lower level of the museum and open daily from 11 a.m. to 5 p.m.
The museum has been undergoing a seven-year renovation that began in 2018 and includes redesigning all 23 exhibitions and presentation spaces, complete refacing of the exterior cladding, replacement of outdated mechanical systems and other repairs and improvements. The entire project is expected to be complete in 2025. Visit the museums website for more information on the renovation.
The National Air and Space Museum in Washington, D.C., is located at Sixth Street and Independence Avenue S.W. and will be open daily from 10 a.m. to 5:30 p.m. The museums Steven F. Udvar-Hazy Center is located in Chantilly, Virginia, near Washington Dulles International Airport. The Udvar-Hazy Center is open daily from 10 a.m. until 5:30 p.m. (closed Dec. 25). Admission is free, but there is a $15 fee for parking at the Udvar-Hazy Center.
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SI-303-2022
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National Air and Space Museum Reopens With Eight New Galleries Oct. 14 - Smithsonian Institution
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Brunswick aerospace companies team up to launch cremated human remains into space – Kennebec Journal and Morning Sentinel
Posted: at 12:54 pm
Two Brunswick aerospace companies announced Wednesday they have agreed on a contract that will send five Maine-made rockets carrying human and pet ashes into suborbital space to be distributed among the northern lights.
Memorial services, priced at $750, will be the first of multiple offerings Northern Lights Space Exploration LP will provide its customers through its partnership with rocket company bluShift Aerospace, according to a press release. Through Driftspace, a software produced by the Portland-based Yarn Corporation, customers will be able to attend the memorial services in virtual reality.
The contract is worth up to a total of $7 million for five suborbital flights, each of which will carry up to 10 kilograms (22 pounds) of cremated human or animal remains.
Northern Lights Space Exploration is a subsidiary of Shackleton Research Trust, an agency that works to improve equity in science in traditionally marginalized areas like the Caribbean, Africa and Southeast Asia, according to managing partner Charlton Shackleton. He said bluShifts eco-friendly rockets, which can be easily shipped anywhere in the world, are a perfect fit for developing nations and islands without existing space infrastructure.
Before, (the space industry) didnt care about the environment we needed to get that thing up there, so that was the focus, Shackleton said. We care about both. Thats what really sold me on a bluShift product versus other launch companies that are trying to do the same thing.
BluShift, which will power its 50- and 78-foot-tall rockets with a bio-derived, nontoxic solid fuel, has long planned to partner with companies that rely on satellites in a polar orbit, meaning a path that runs north to south over the poles, according to founder and CEO Sascha Deri. He told the Forecaster in March that the market to launch those satellites, which are often used in broadband communications and global imaging, is worth $20 billion.
Though he didnt initially expect his company would be involved in space memorial services, Deri said Northern Lights Space Explorations model provided an exciting opportunity for both bluShift and Maines budding aerospace industry.
Its really neat to see that theres something completely unexpected a whole different way to commercialize space launch that isnt just around R&D and technology development that we can take advantage of as a space launch company, Deri said. I think it really shows how much how much nascent entrepreneurialism and curiosity in general, interest in space, we have in Maine.
Terry Shehata, director of the Maine Space Grant Consortium, agreed the partnership between the two Brunswick companies represents a step forward for Maines space industry, which he said has garnered attention nationwide since the establishment of the Maine Space Corp this spring.
Youre seeing the initial steps of whats happening to create this new space economy in Maine, Shehata said. What youve witnessed today with this arrangement agreement between bluShift and Northern Lights is just a sign that a lot more things are coming down the pike.
He said the upcoming formation of the Maine Space Complex, as well as the success of startups like bluShift, could contribute to a domino effect that will bring the state a wide array of jobs in fields like engineering, electrical work and data analytics, as well as opportunities for entrepreneurs with novel ideas like Shackleton.
While bluShift announced in June plans to build its launch site in Steuben, Northern Lights is still finalizing its own launch location, Shackleton said. The companies hope to launch their first cargo by the end of 2023.
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Artificial Intelligence in Space – USC’s Information Sciences Institute is on a Mission – USC Viterbi | School of Engineering – USC Viterbi School of…
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Danny Olivas
John Daniel Danny Olivas, former NASA astronaut and current member of the NASA Advisory Council, has joined the staff of the Visual Intelligence and Multimedia Analytics Laboratory (VIMAL) of USCs Information Sciences Institute (ISI) as Co-Director for AI Initiatives in Space.
Olivas brings considerable experience to VIMAL, ISI and USC. A veteran of space shuttle missions in 2007 and 2009, he is the recipient of two NASA Space Flight Medals and the NASA Exceptional Service and Exceptional Achievement Medals. Olivas completed five space walks totaling over 34 hours outside of the International Space Station. His expertise in space is rivaled only by his passion for it, and he brings both to his new role.
Olivas said, I am excited about the opportunity to help expand USCs footprint in space, for researchers and students alike.
VIMAL which is led by Wael AbdAlmageed, research director at ISI and research associate professor of electrical and computer engineering has a noble and straight-forward mission: to empower students to use artificial intelligence to make the world a better place, one day at a time. With Olivas on the team, VIMAL is now able to look beyond Earth to do this.
Olivas and AbdAlmageed met in July 2022, when they were both invited to Renaissance Weekend, a prestigious, non-partisan, invite-only retreat for innovative thinkers across disciplines held this year in Banff,Canada. They quickly realized they had a lot in common. AbdAlmageed said, Danny [Olivas] and I come from very similar mindsets and backgrounds. We believe in working hard on hard problems, without giving up, for a long period of time. We believe that is enough to make things happen.
Interested in each others area of expertise, the two discussed how to harness their collective grit and work together. A month later, Olivas visited ISI for the day to learn about VIMAL and ISI, and present his thoughts on opportunities for AI in space.
Olivas astronaut background and exposure to space provides a valuable new perspective on new areas for data analysis. Since the beginning of the [NASA] program, NASA has produced more data than has been analyzed, he noted. He added that this data is ripe for analysis through artificial intelligence and machine learning.
One application is climate, which AbdAlmageed called an area of growth for VIMAL.
NASA has instruments that can see things like water vapor in the upper atmosphere, Olivas said. All these kinds of things can not only be analyzed in their individual silos of monitoring, but you can now start to integrate data across the different instruments to build a much more robust picture of how climate changes are affecting a certain region.
Ozone and CO2 in the atmosphere, temperature trends across the planet, drought prediction, sea level detection, deforestation, planet population changes these are just some of the areas where NASA has useful historical data, according to Olivas.
This data has been available by NASA for many, many years, he added, and (they) provide an opportunity to take pieces of this information and start to integrate them together and allow computational technologies to take over where human beings have had to digest this information in the past, to try to make sense of it.
As NASA prepares for a future in which humans will travel to Mars, new and exciting AI applications will emerge. There are some specific robotic applications that are very unique to NASAs space program, Olivas said. For example, a robot that can check the mood of an astronaut based on their facial expressions or voice intonations something that will be increasingly important for mental health as missions extend from months to years with Mars exploration.
Exploration rovers are another area where Olivas sees room for more AI, again, with Mars as the example: It takes about twenty minutes to be able to send a command from Earth to Mars. By the time you get the photograph that your rover is marching over a cliff, its probably the wrong time to send the command to stop moving. So you want to have more intelligence being built on the platform to allow the rover to make decisions for itself.
Climate data, robots and rovers these are areas Olivas might take VIMAL in the future. However, the first problem Olivas and AbdAlmageed plan on tackling is trash, specifically orbital debris.
NASA defines orbital debris as any non-functional human-made object in orbit around the Earth. Think: spacecraft, satellites, rockets or what youd get if any of those collided or exploded. Debris ranges in size from sub-microns all the way to several meters from a paint chip to a school bus with hundreds of thousands of estimated pieces orbiting Earth.
The trouble comes from the fact that this debris travels at orbital velocities that are dangerous to NASAs missions picture that paint chip or school bus traveling at 16,000 mph! Olivas said, its that hyper-velocity impact that causes all sorts of problems, not only with the space station or human spacecraft, but also with satellite technology. It is a serious threat to astronauts, spacecraft and space exploration in general.
The VIMAL team will be looking at ways to use their sensing, computer vision and AI expertise to identify pieces of debris and track them for long periods of time as they orbit Earth.
Olivas extends a strong legacy of innovation in space exploration at USC. He joins fellow former NASA astronauts Paul Ronney and Garrett Reisman, who also serve as faculty at USC Viterbi, which is one of a core group of top schools with a distinct astronautical program. This wont be the first time Olivas and Reisman have worked together, they were classmates in the NASA astronaut program.
To date, school researchers have created innovations in spacecraft propulsion, space science, space environment, space communications, satellites and materials. Astronaut Neil Armstrong was a USC Viterbi alumnus, and the school has a dedicated Space Engineering Research Center at ISI.
USC Viterbi maintains strong connections with pioneering space organizations and alumni who design and build rockets and space launchers, communications and direct broadcasting satellites, navigational systems, crewed space vehicles and planetary probes.
At the end of the day, space is a human endeavor, said Olivas, who pointed out that part of being an astronaut involves looking out for one another. He seemed impressed by this aspect of the work done by VIMAL.
One thing that Ive come to appreciate at VIMAL is the inclusive nature of the collaborations; it is really inspirational, he said.
AbdAlmageed has very intentionally fostered the collaborative environment of VIMAL. Im proud that weve created a culture in the lab where everybody feels a sense of ownership and partnership. He continued, I couldnt have done something like hire Danny [Olivas] without the significant contributions of everyone in VIMAL who do the work day in and day out. This was a team effort. I am also very grateful to Dr. Craig Knoblock, ISI Executive Director, for supporting our ambitious initiatives and pursuits.
Olivas certainly seems excited to join the team, I look forward to sharing, learning and seeing where those opportunities might be with VIMAL, concluded the astronaut.
Published on October 3rd, 2022
Last updated on October 3rd, 2022
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Assessing Long-Term Effects of Radiation Exposure in Engineered Heart & Vascular Tissues | Science Mission Directorate – Science@NASA
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Science Objectives
Space radiation is one of the greatest health threats for space exploration, and exposure to ionizing radiation can cause serious heart diseases. The investigation, Assessing Long-Term Effects of Radiation Exposure in Engineered Heart & Vascular Tissues, aims to understand how and why space radiation exposure causes human disease by using heart and blood vessel-like tissues created with stem cell biology and tissue engineering technology. The results from this investigation will provide better insight into the causes of radiation-induced heart disease (RIHD) which can potentially lead to drug development to counter RIHD.
3D engineered heart tissue (EHT) beats within a tissue chip. Understanding the molecular changes associated with cardiac dysfunction post radiation exposure may contribute to discovery of novel therapeutic targets for clinical application.
A conventional risk assessment for radiation-induced degenerative effects is restricted to irradiation experiments on animal models or immortalized cell lines which lack the genetic diversity often found in the human population. The goal of this investigation is to establish the engineered heart-like and vessel-like tissues from human iPSC and to characterize functional and molecular changes after irradiation.
Space radiation is one of the greatest health threats for space exploration. Results from this investigation will improve our understanding of heart disease caused by space radiation exposure. Interventions can be developed once the details are understood.
Cancer patients that have undergone radiation therapy and nuclear power plant workers are prone to radiation induced heart disease. This investigation will improve our understanding of heart disease caused by radiation exposure. Interventions can be developed once the details are understood.
Joseph C. Wu, MD, PhDStanford University, Stanford, California, United States
Peter W. Grabham, PhDColumbia University, New York, New York, United States
Everett Moding, MD, PhDStanford University, Stanford, California, United States
Afshin Beheshti, PhDNASA Ames Research Center, Moffett Field, California, United States
Wing Wong, PhDStanford University, Stanford, California, United States
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Why the Death of India’s Groundbreaking Mars Orbiter Is a Big Deal – CNET
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On Sept. 24, 2014, the Indian Space Research Organization made history.
A year earlier, the nation's premier space agency blasted a little spacecraft toward Mars, hoping to punch the boxy probe into the red planet's orbit and hover it alongside NASA's state-of-the-art Mars Reconnaissance Orbiter and ESA's inventive Mars Express. This, at the time, was an ambitious goal.
India had yet to enter the interplanetary game, and allotted only a mere $74 million (4.5 billion rupees) to achieve what the US once did with nearly 10 times that. Even Christopher Nolan budgeted far more to produce his glorious, space-y film, Interstellar and Boeing's cheapest commercial airplane costs an extra few million.
Then came Sept. 24, 2014.
ISRO's spacecraft, known as Mangalyaan, officially entered Martian orbit as part of the Mars Orbiter Mission, making India the fourth nation to insert a robot into Mars' gravitational whirlpool -- and the first to do so on its maiden try. But, as the belabored saying goes, all good things must come to an end.
This week, India bid an inevitable farewell to Mangalyaan, which translates from Hindi to "Mars craft."
After eight incredible years of service studying the rocky world's atmosphere and testing key technologies from the sky -- a much longer lifetime than the agency expected -- Mangalyaan ran out of fuel and battery power.
The culprit, scientists believe, might've partly been an unfortunate back-to-back sequence of solar eclipses. Mangalyaan is solar powered and therefore couldn't charge back up without the power of the sun. Starting now, it will slowly drift toward Mars' surface in silence.
"The spacecraft is non-recoverable and attained its end-of-life," ISRO said in a statement Monday, emphasizing that "the mission will be ever-regarded as a remarkable technological and scientific feat in the history of planetary exploration."
ISRO's Martian space explorer was a trooper.
Once Mangalyaan blasted off from Earth almost a decade ago, the spacecraft's team expected to say goodbye to its muse in about six months. Yet, as ISRO notes, "despite being designed for a life span of six months as a technology demonstrator, the Mars Orbiter Mission has lived for about eight years in the Martian orbit with a gamut of significant scientific results."
Not only did Mangalyaan help scientists understand elusive Martian quirks like the planet's towering dust storms and create a detailed atlas of its icy poles, but eventually, the craft's lens transcended the Martian vicinity to shed light on other parts of our solar system too.
Mangalyaan, ISRO highlights in a sort of obituary, managed to decode secrets about our sun's corona before losing contact with ground control. And during a national meeting held last week to discuss the mission's finale, the team also reminisced about the more human consequences of Mangalyaan's legacy too.
Kiran Kumar, former chairman of ISRO and key designer for India's Mars mission stands before the first ever images of Mars taken by an Indian space craft.
So far, the agency said, more than 7,200 users have registered to download Mangalyaan's data from ISRO's online archive, 400 of whom are international, and about 27,000 downloads of varying sizes have been carried out already.
"The mission has also contributed to human resource generation in the domain of planetary sciences," ISRO said. "It has generated several Ph.D. holders, while many of the research scholars are using the data from the mission to pursue their doctoral work."
Indian scientists and ISRO engineers monitor the Mars Orbiter Mission at the agency's tracking center in 2013.
It's poignant to think about Mangalyaan's everlasting imprint on space exploration because, around the time when the craft left Earth, reporters, scientists and space enthusiasts worldwide predicted a variety of directions in which that imprint could bend.
Most opinions were wide-eyed.
BBC News openly called India's Mars mission "cheap and thrilling," because the country's space program "succeeded at the first attempt where others have failed," by sending an operational mission to Martian orbit. Regarding that low cost, ISRO managed to keep things "simple," the publication stated, attempting to get the biggest bang for its buck.
India accomplished its Martian orbital endeavor with about 1/10 what it once costed the US.
For instance, Mangalyaan was armed with methane detectors meant to answer some of the most pressing questions about Mars' atmosphere, like whether methane-producing bugs might exist somewhere on the planet, thus offering proof of extraterrestrial life.
"The mission is also credited with the discovery of 'suprathermal' Argon-40 atoms in the Martian exosphere, which gave some clue on one of the potential mechanisms for the escape of atmosphere from Mars," ISRO said.
Some opinions were well-intentioned, but missed the mark.
In 2014, a New York Times sketch about Mangalyaan erupted in controversy because it teased the fact that India is soon to join the "elite space club." Many found it distasteful because the character representing India was wearing a traditional dhoti and turban as well as holding a cow on a leash while knocking on the door of a so-called "elite space club." Inside, two white men looked perplexed. One held a newspaper headlined "India's Mars Mission."
In an apology letter, a Times editor said the "intent of the cartoonist, Heng Kim Song, was to highlight how space exploration is no longer the exclusive domain of rich, Western countries," though Indian reporters still felt the graphic marred the sentiment.
On the flip side, ISRO met its fair share of criticism.
Some argue that Mangalyaan's lack of scientific publications-- after five years it'd only produced about 27 -- goes to show the agency was in a rush to hastily get the probe up there. Though as a response to that, others contend that Mangalyaan was meant to be a six-month-long technology demonstration and just so happened to outlive its expected lifetime. Maybe even those 27 publications are a superb achievement, in that case.
By trying to compete with wealthier nations' interplanetary space missions, some have also suggested the agency spent money on space exploration that could've better been leveraged for issues closer to home. Things like health care innovation, infrastructure development and food insecurity solutions that space organizations like NASA or Roscosmos don't have to consider, due to their residence in privileged countries.
As a counterargument, however, in 2013, Indian journalist Samanth Subramanian wrote in The New Yorker that "Mangalyaan's 73-million-dollar budget is a pittance compared to the 20 billion dollars that India will spend this year to provide subsidized food to two out of every three of its citizens, or the $5.3 billion that will be spent this year on a rural employment plan."
It's undoubtedly difficult to measure the benefits and costs -- particularly economic ones -- that come from a space mission. But now, at the end of it all, it'd be remiss to exclude the ultimate payoff that came from Mangalyaan's success.
The existence of this spacecraft spurred the creation of jobs, the mission's unique insights enhanced the field of astronomy, and the project's culmination exuded an evocative message.
Adventuring into space needn't solely be based on wealth, power or privilege, but also on the intrinsic human impulse to explore.
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Why the Death of India's Groundbreaking Mars Orbiter Is a Big Deal - CNET
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