spaceflight (42)

The Checkbook of Space Travel...

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An illustration of NASA's Orion spacecraft in orbit around the moon. (Image credit: Lockheed Martin)

Topics: Astronautics, History, NASA, Space Exploration, Spaceflight

Between 1969 and 1972, the Apollo missions sent a total of a dozen astronauts to the surface of the moon — and that was before the explosion of modern technology. So why does it seem like our current efforts, as embodied by NASA's Artemis program, are so slow, halting and complex? 

There isn't one easy answer, but it comes down to money, politics, and priorities.

Let's start with the money. Yes, the Apollo missions were enormously successful — and enormously expensive. At its peak, NASA was consuming around 5% of the entire federal budget, and more than half of that was devoted to the Apollo program. Accounting for inflation, the entire Apollo program would cost over $260 billion in today's dollars. If you include project Gemini and the robotic lunar program, which were necessary precursors to Apollo, that figure reaches over $280 billion.

In comparison, today, NASA commands less than half a percent of the total federal budget, with a much broader range of priorities and directives. Over the past decade, NASA has spent roughly $90 billion on the Artemis program. Naturally, with less money going to a new moon landing, we're likely to make slower progress, even with advancements in technology.

Why is it so hard to send humans back to the moon? Paul Sutter, Space.com.

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Valentina Tereshkova...

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Valentina Tereshkova. Credit: ESA

Topics: Astronautics, ESA, History, NASA, Space Exploration, Spaceflight, Women in Science

The first female cosmonaut flew years before NASA put a man on the Moon and decades before any other country would send a woman into orbit.

On a drab Sunday in Moscow in November 1963, a dark-suited man stood beside his veiled bride, whose bashful smile betrayed the merest hint of nerves. Despite the extraordinarily lavish surroundings of the capital’s Wedding Palace, it might have been any normal wedding, but for one thing: Both groom and bride were cosmonauts, members of Russia’s elite spacefaring fraternity.

Two years earlier, that bride, Valentina Tereshkova, had been a factory seamstress and amateur parachutist with more than 100 jumps to her name when she’d volunteered for the cosmonaut program. Now, the 26-year-old, whom TIME magazine dubbed “a tough-looking Ingrid Bergman,” was among the most famous women in the world, an accolade she had earned just months ago by becoming the first female to leave the planet.

Sixty years on from her pioneering Vostok 6 mission, more than 70 women from around the globe have followed in Tereshkova’s footsteps, crossing that ethereal boundary between ground and space. Some have commanded space missions, helmed space stations, made spacewalks, spent more than a cumulative year of their lives in orbit, and even flown with a prosthesis. And women from Britain, Iran, and South Korea have become their countries’ first national astronauts, ahead of their male counterparts.

60 years ago today, Valentina Tereshkova launched into space, Ben Evans, Astronomy

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Caveat Colonizing...

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(Credit: Evgeniyqw/Shutterstock)

Topics: Astronautics, Climate Change, Environment, Futurism, Global Warming, Mars, Spaceflight

When Elon Musk founded SpaceX in 2002, he envisioned a greenhouse on Mars, not unlike the one later depicted in the 2015 blockbuster The Martian. Soon, his fantasy grew from a small-scale botanical experiment into a vision for a self-sustaining Martian city. In a speech at the 67th International Astronautical Congress in 2016, he argued his point. “History is going to bifurcate along with two directions. One path is we stay on earth forever and then there will be some eventual extinction event,” Musk says. “The alternative is to become a space-faring civilization and a multi-planet species, which, I hope you would agree, is the right way to go.”

Though Musk later clarified that the extinction event he referenced may take place millennia (or even eons) in the future, the conditions on earth today are becoming increasingly dangerous for human beings. Deadly heatwaves, food insecurity, and catastrophic natural disasters are a few of the hazards that we face as the planet continues to warm. Unfortunately, the Red Planet is a very long way from becoming a viable alternative home. While we measure carbon dioxide concentrations in parts per million on earth, Mars’ atmosphere contains 96% CO2, just one of a litany of logistical nightmares that Martian colonists would have to overcome.

In a perfect world, Musks’ dreams of extraterrestrial civilization could coexist with the eco-forward values that have driven ventures like Tesla’s solar program. But while SpaceX’s aspirations are in space, its operations have an undeniable impact at home. Unlike a Tesla sports car, SpaceX’s rockets aren’t propelled by electricity — they burn kerosene

Carbon emissions from space launches are dwarfed by other sources of greenhouse gasses, but they could have an outsized impact on climate. The reason for this stems from one particular product of rocket propulsion: black carbon. These tiny chunks of crystalline carbon atoms are short-lived in the atmosphere, but highly absorptive of sunlight. On the Earth’s surface, black carbon from diesel, coal, and wood combustion poses a threat to environmental and public health, particularly in developing countries. But in the upper atmosphere, rocket engines are the sole source of black carbon. For years, scientists have warned that these emissions could have unpredictable effects on climate. Still, research on the topic has been frustratingly slow.

“We identified the issue with black carbon in 2010,” says Darin Toohey, an atmospheric scientist at the University of Colorado Boulder. “The story comes and goes, but the basic players remain the same.”

Efforts to Colonize Mars Could Have a Negative Impact on Global Health, Gabe Allen, Discover Magazine

 

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Proxima Oceans...

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An artist’s impression of the newly discovered planet orbiting Proxima Centauri.Credit: ESO/L. Calçada

Topics: Astronomy, Astrophysics, Exoplanets, Space Exploration, Spaceflight

Astronomers have discovered a third planet orbiting Proxima Centauri, the star closest to the Sun. Called Proxima Centauri d, the newly spotted world is probably smaller than Earth and could have oceans of liquid water.

“It’s showing that the nearest star probably has a very rich planetary system,” says Guillem Anglada-Escudé, an astronomer at the Institute of Space Sciences in Barcelona, Spain, who led the team that, in 2016, discovered the first planet to be seen orbiting Proxima Centauri.

Astronomer João Faria and his collaborators detected Proxima Centauri d by measuring tiny shifts in the spectrum of light from the star as the planet’s gravity pulled at it during orbit. The team used a state-of-the-art instrument called the Echelle Spectrograph for Rocky Exoplanets and Stable Spectroscopic Observations (ESPRESSO) at the Very Large Telescope, a system of four 8.2-meter telescopes at the European Southern Observatory in Cerro Paranal, Chile. The results were published on 10 February in Astronomy & Astrophysics.

Earth-like planet spotted orbiting Sun’s closest star, Davide Castelvecchi, Nature

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HETs...

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FIG. 1. Temporal evolution of chamber pressure assuming nominal operation for 30 s followed by a 40 s interval with flow rate reduced 100×. The colors correspond to 1 kW, 10 kW, 100 kW, and 1 MW power levels. The process is then repeated.

Topics: Applied Physics, Computer Modeling, NASA, Space Exploration, Spaceflight

Abstract

Hall effect thrusters operating at power levels in excess of several hundreds of kilowatts have been identified as enabling technologies for applications such as lunar tugs, large satellite orbital transfer vehicles, and solar system exploration. These large thrusters introduce significant testing challenges due to the propellant flow rate exceeding the pumping speed available in most laboratories. Even with proposed upgrades in mind, the likelihood that multiple vacuum facilities will exist in the near future to allow long-duration testing of high-power Hall thrusters operating at power levels in excess of 100 kW remains extremely low. In this article, we numerically explore the feasibility of testing Hall thrusters in a quasi-steady mode defined by pulsing the mass flow rate between a nominal and a low value. Our simulations indicate that sub-second durations available before the chamber reaches critical pressure are sufficiently long to achieve the steady-state current and flow field distributions, allowing us to characterize thruster performance and the near plume region.

I. INTRODUCTION

Hall effect thrusters (HETs) are spacecraft electric propulsion (EP) devices routinely used for orbit raising, repositioning, and solar system exploration applications. To date, the highest power Hall thruster flown is the 4.5 kW BPT-4000 launched in 2010 aboard the Advanced EHF satellite1 (which the HET helped to deliver to the correct orbit after a failure of the primary chemical booster), although a 13 kW system is being readied for near-term flight operation as part of the Lunar Gateway,2 and thrusters at 503,4–100 kWs power levels have been demonstrated in the laboratory. Solar cell advancements and a renewed interest in nuclear power have led the aerospace community to consider the use of Hall thrusters operating at even higher power levels. Multi-hundred kW EP systems would offer an economical solution for LEO to GEO orbit raising or for the deployment of an Earth-to-Moon delivery tug, and power levels in excess of 600 kW could be utilized for crewed transport to Mars.5–9 While such power levels could be delivered using existing devices, a single large thruster requires less system mass and has a reduced footprint than a cluster of smaller devices.10

Quasi-steady testing approach for high‐power Hall thrusters, Lubos Brieda, Yevgeny Raitses, Edgar Choueiri, Roger Myers, Michael Keidar, Journal of Applied Physics

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Uhura to Proctor...

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Topics: Diversity in Science, NASA, Space Exploration, Spaceflight, SpaceX, Star Trek

Dr. King revealed to Nichols that TOS was the only show that he and his wife, Coretta, allowed their little children to stay up and watch. Further, he told Nichols what the show meant to him personally and detailed the importance of her having created a character with "dignity and knowledge." Nichols took it all in and finally said, “Thank you so much, Dr. King. I’m really going to miss my co-stars.” Dr. King's smile, Nichols recalled, vanished from his face.

"He said, 'What are you talking about?'" the actress explained. "I told him. He said, 'You cannot,' and so help me, this man practically repeated verbatim what Gene said. He said, 'Don’t you see what this man is doing, who has written this? This is the future. He has established us as we should be seen. Three hundred years from now, we are here. We are marching. And this is the first step. When we see you, we see ourselves, and we see ourselves as intelligent and beautiful and proud.' He goes on and I’m looking at him and my knees are buckling. I said, 'I…, I…' And he said, 'You turn on your television and the news comes on and you see us marching and peaceful, you see the peaceful civil disobedience, and you see the dogs and see the fire hoses, and we all know they cannot destroy us because we are there in the 23rd century.'

Nichelle Nichols Remembers Dr. King, the StarTrek.com staff

Note: At this posting, she made history yesterday.

Sian Proctor is making history as the first-ever Black female spacecraft pilot. 

Proctor, a geoscientist, artist, and science communicator, has been paving the way in the space sector for decades. Now, years after being a finalist in NASA's astronaut candidate program back in 2009, she is realizing her dream of becoming an astronaut as she launches to orbit with the Inspiration4 mission tonight (Sept. 15).

While the mission itself is making history as the first all-civilian mission to launch to orbit, Proctor is accomplishing a major first herself as the first Black female spacecraft pilot. 

"I'm really grateful to be here and to have this opportunity," Proctor said Sept. 14 during a news conference with reporters. "There have been three Black female astronauts that have made it to space, and knowing that I'm going to be the fourth means that I have this opportunity to not only accomplish my dream but also inspire the next generation of women of color and girls of color and really get them to think about reaching for the stars and what that means."

Sian Proctor makes history with SpaceX's Inspiration4 as first-ever Black female spacecraft pilot, Chelsea Gohd, Space.com

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Biggie's Starship...

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Topics: Materials Science, Nanotechnology, Space Exploration, Spaceflight, Star Trek

China is investigating how to build ultra-large spacecraft that are up to 0.6 miles (1 kilometer) long. But how feasible is the idea, and what would be the use of such a massive spacecraft?

The project is part of a wider call for research proposals from the National Natural Science Foundation of China, a funding agency managed by the country’s Ministry of Science and Technology. A research outline posted on the foundation’s website described such enormous spaceships as “major strategic aerospace equipment for the future use of space resources, exploration of the mysteries of the universe, and long-term living in orbit.”

The foundation wants scientists to conduct research into new, lightweight design methods that could limit the amount of construction material that has to be lofted into orbit, and new techniques for safely assembling such massive structures in space. If funded, the feasibility study would run for five years and have a budget of 15 million yuan ($2.3 million).

The project might sound like science fiction, but former NASA chief technologist Mason Peck said the idea isn’t entirely off the wall, and the challenge is more a question of engineering than fundamental science.

“I think it’s entirely feasible,” Peck, now a professor of aerospace engineering at Cornell University, told Live Science. “I would describe the problems here not as insurmountable impediments, but rather problems of scale.”

By far the biggest challenge would be the price tag, noted Peck, due to the huge cost of launching objects and materials into space. The International Space Station (ISS), which is only 361 feet (110 meters) wide at its widest point according to NASA, cost roughly $100 billion to build, Peck said, so constructing something 10 times larger would strain even the most generous national space budget.

China Wants to Build a Mega Spaceship That’s Nearly a Mile Long, Edd Gent, Scientific American

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Gene Centennial...

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Image source: The Roddenberry Foundation link below

Topics: Planetary Science, Space Exploration, Spaceflight, Star Trek

NASA is helping the legacy of inspiration, hope, and diversity fostered by the creator of Star Trek to live long and prosper. The agency will observe the late Gene Roddenberry’s 100th birthday with a special program called, Celebrating Gene Roddenberry: Star Trek's Bridge and NASA – a panel discussion airing on NASA Television, the agency’s website, the NASA App, and NASA social media at 2 p.m. EDT Thursday, Aug. 19.

The program includes introductory remarks by NASA Administrator Bill Nelson followed by a panel discussion moderated by Rod Roddenberry, son of Gene Roddenberry. Special guest George Takei, a Star Trek actor, and activist will participate in the question-and-answer session.

Coinciding with the program, NASA will broadcast into space a 1976 recording of Gene Roddenberry's remarks on diversity and inclusion through the agency’s Deep Space Network of radio antennas. NASA also is inviting people on social media to join in celebrating Roddenberry’s 100th birthday on Thursday by posting a Vulcan salute selfie with the hashtag #Roddenberry100.

The Roddenberry Foundation Centennial Celebration

NASA

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ISAAC...

NASA’s Integrated System for Autonomous and Adaptive Caretaking, or ISAAC, is advancing new technology for robots to take care of spacecraft. Researchers recently demonstrated the tech aboard the International Space Station using Astrobee, NASA’s free-flying robotic assistants.
Credits: NASA/Ames Research Center

 

Topics: International Space Station, NASA, Space Exploration, Spaceflight

 

In April 2021, Bumble, one of the free-flying Astrobee robots aboard the International Space Station, was put to the test to investigate a simulated anomaly. In the simulation, the station’s life support systems detected a high concentration of carbon dioxide. A similar situation, in reality, could be very dangerous for the seven people who are living and working aboard the microgravity laboratory.

 

During the test, the small, cube-shaped robot adeptly navigated the station to find the location designated as a "vent" used for cabin air circulation and used computer vision to automatically detect the foreign object blocking the vent – an "astronaut sock," represented by a printed image of a sock. Then, Bumble called for help to clear the blockage. For its next test, Bumble completed a survey of Bay 6 of the space station’s Japanese Exploration Module, building a high-resolution multi-sensor 3D map. During this journey, Bumble found itself bumping into and untangling itself from stray cables, and coping with simulated space-to-ground communication interruptions. It ultimately persevered and completed its mission objectives, with a little timely help from ground operators.

 

This simulated fault scenario marked the end of the first phase of testing for software designed to enable autonomous operations of a spacecraft’s operating and robotic systems. The software’s name is ISAAC – the Integrated System for Autonomous and Adaptive Caretaking.

 

"ISAAC is far more than just a management tool for our robotics and spacecraft systems," said Trey Smith, the project manager for ISAAC at NASA’s Ames Research Center in California's Silicon Valley. "Our long-term vision is that it can transform a spacecraft into an autonomous robotic system itself."

 

NASA's future Artemis missions to the Moon and beyond will take humans farther than they ever have before – and a host of robotic and mechanical systems will go with them. On the space station, much closer to home, astronauts have been able to stay full time, surpassing 20 years of continuous human presence – something that won’t be possible in deep space for some time. How can future spacecraft operate smoothly without that consistent human touch? ISAAC aims to deliver technologies to enable remote and autonomous caretaking during long periods of time when the astronauts are not aboard to perform maintenance, logistics management, and utilization tasks, as well as when communicating with ground controllers is limited or simply unavailable.

 

Meet ISAAC, Integrating Robots with the Space Stations of the Future, Frank Tavares, NASA's Ames Research Center

 

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Image Source: Space Billionaires, Please Read the Room, Shannon Stirone, The Atlantic

 

Topics: Civics, Civil Rights, Existentialism, Human Rights, Spaceflight

 

Note: The post title is sourced from The Atlantic article, as is the lurid artwork.

 

It is the experience of seeing firsthand the reality of the Earth in space, which is immediately understood to be a tiny, fragile ball of life, "hanging in the void," shielded and nourished by a paper-thin atmosphere. From space, national boundaries vanish, the conflicts that divide people become less important, and the need to create a planetary society with the united will to protect this "pale blue dot" becomes both obvious and imperative.

 

The thing that really surprised me was that it [Earth] projected an air of fragility. And why, I don’t know. I don’t know to this day. I had a feeling it’s tiny, it’s shiny, it’s beautiful, it’s home, and it’s fragile. Michael Collins, Apollo 11. Source: Wikipedia/Overview effect

 

The best case for taxing the rich is made by a "space race" with billionaires leaving the Earth ravaged by a once-in-a-century pandemic in the form now of the Delta variant, climate change disasters that can't be gaslighted, and modern-day Hooverville tent cities IN the richest nation in the world, exacerbated since last year by the Coronavirus. Almost all new cases in what amounts to a fourth wave are among the unvaccinated, in a bizarre, nihilistic viral analog of the Cold War doctrine of Mutually Assured Destruction, and Dr. Strangelove. But: "space, the final frontier" for billionaires, apparently is more important. Is it my observation only that each "spaceship" looks like a phallic symbol or pleasure instrument?

 

Bezos, of course, ruins the whole point of the Overview effect: “We need to take all heavy industry, all polluting industry, and move it into space and keep Earth as this beautiful gem of a planet that it is,” he said in an interview with NBC News. “That’s going to take decades to achieve, but you have to start. And big things start with small steps.” (Justine Calma, The Verge). That's a direct quote from the richest man in the world, a toss-up clone between either Dr. Evil or Lex Luthor.

 

The world's richest man has obviously not heard about space junk sipping lattes on his half-billion-dollar yacht, with a spare for the helicopter (hey, that's important). Just like Musk's "genius" idea of terraforming the planet Mars for humans by dropping nuclear bombs to warm it up. First point: Mars has no atmosphere to warm up. Second point: Plutonium-239 used in current thermonuclear devices has a half-life of 24,110 years, meaning the radiation level will be half as lethal in 964 human generations. Branson's price tag to do weightlessness is $250,000. You can afford it by entering a contest: the cost is $10, $25, $50, $100, which begs why anyone has to donate to a raffle for a ride with a billionaire? Batman didn't charge the Justice League for the Watchtower (I don't think). Bruce Wayne is a plucky superhero (or antihero); he's fictional.

 

Bezos, Branson, Musk, et al. are real, and they don't appear interested in anything other than their own enjoyment.

 

*****

 

Tuesday, July 30, 2024

 

  • Lauren writes about an astronaut who died on the latest Mars mission. People in the neighborhood say traveling to Mars is a waste of money when people on earth can't afford basic necessities.
  • Lauren also writes about the cost of water increasing. It's fashionable to be dirty since no one can afford to clean their clothes.

 

Shmoop.com: Study Guide, Parable of the Sower, Octavia E. Butler, Chapter 3

 

Rockets, moon shots
Spend it on the have nots
Money, we make it
Fore we see it you take it

 

Oh, make me want to holler
The way they do my life (yeah)
Make me want to holler
The way they do my life

 

This ain't livin', this ain't livin'
No, no baby, this ain't livin'
No, no, no, no

 

"Inner City Blues: Make Me Wanna Holler," Marvin Gaye, Genius Lyrics

 

A rat done bit my sister Nell.
(with Whitey on the moon)
Her face and arms began to swell.
(and Whitey's on the moon)

 

I can't pay no doctor bill.
(but Whitey's on the moon)
Ten years from now I'll be payin' still.
(while Whitey's on the moon)

 

The man jus' upped my rent las' night.
('cause Whitey's on the moon)
No hot water, no toilets, no lights.
(but Whitey's on the moon)

 

"Whitey on the Moon," Gil Scott-Heron, Genius Lyrics

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A Voyage In Her Lifetime...

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Image Source: Link in the article text

 

Topics: International Space Station, Interstellar, NASA, Space Exploration, Spaceflight, Star Trek

 

Light Sails were first mentioned in the year 1610 in a letter by astronomer Johannes Kepler to his friend, Galileo Galilei. “With ships or sails built for heavenly winds, some will venture into that great vastness.” In his character of Benjamin Sisko on Star Trek: Deep Space Nine, Avery Brooks used his Starfleet engineering prowess deciphering ancient text to recreate an ancient Bajoran solar sail in the episode "Explorers." The possibilities have vacillated between science and fiction ever since.

 

I've enjoyed reading the speculation by Avi Loeb, Chair of Harvard University's Department of Astronomy on the Oumuamua object in Extraterrestrial. I've also enjoyed the healthy counter debate, as that's how ideas in science are refined before they become laws, doctrine, or accepted universal theorems.

 

On the "billionaire space race": Eli Musk started it with his SpaceX rocket system. It would be nice in current geopolitical tensions not to rely so much on Russian Soyuz capsules to get to the ISS. Brian Branson and Jeff Bezos have probably opened up space tourism, but in the foreseeable near-future and exorbitant price tag, it will probably be a dalliance of the wealthy. Desktop computers used to cost between $2,000 - 3,000, cell phones irradiating Gordon Gekko's skull in the movie "Wall Street" used to be the size of Canada. Even the fictional Zefram Cochrane needed a financier, Micah Brack, to get Warp One going. Whether that leads to a utopia of limitless energy, the end to poverty, money, life extension, and eliminating inequality is yet to be seen.

 

The article title, Breakthrough Starshot: A voyage to the stars within our lifetimes, Astronomy Magazine, takes into account the bane of our spacefaring existence: mass, quite literally a "drag," and cannot be compensated for by technobabble "inertia dampeners" or artificial gravity. We are currently accelerating at 9.8 meters per square second to the Earth's center, but we're used to it after living here a while. Twenty percent of the speed of light would get a nano solar sail craft propelled by a high-energy laser to Alpha Centauri in twenty years but would turn human passengers (if any were that small) into DNA goo against the bulkhead. Starshot launching in 2060 means my granddaughter will be forty-one, her parents might be grandparents, and I would have to be a spry ninety-eight to witness it. "Our lifetimes" must be humankind, that is if we haven't overextended our resources to make the endeavor fruitless. From the end of the article:

 

But as award-winning Cosmos writer and producer Ann Druyan, a member of the Breakthrough Starshot advisory board, said during a 2016 press conference announcing the initiative: “Science thinks in timescales of billions of years. And yet, we live in a society that only thinks in terms of, generally, the balance sheet of the next quarter or the next election. … So, this kind of thinking that looks at a horizon that’s 35 years away — possibly 20, possibly 50 — is exactly what’s called for now, because it’s this kind of multigenerational enterprise that nets us such great results.”

 

Godspeed, "Little Bit."

 

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The Lighthouse...

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Creators Brian Haberlin and David Hine take "Jules Verne's Lighthouse" into the depths of deep space piracy starting this April. (Image credit: Image Comics)

Topics: History, Science Fiction, Space Exploration, Spaceflight

Widely considered to be the "Father of Science Fiction," the famed French poet, novelist, and playwright [known] as Jules Verne celebrates what would have been his 193rd birthday this year. 

Born Feb. 8, 1828, Verne ushered in the grand era of speculative fiction with his classic novels, "20,000 Leagues Under the Sea," "From the Earth to the Moon," "Around the World in 80 Days," and "Journey to the Center of the Earth."

Now one of Verne’s lesser-known works from 1905, "The Lighthouse At The End Of The World," is being adapted for the first time into a five-issue comic book miniseries at Image Comics premiering in April. Orchestrated by the veteran creative team of Brian Haberlin and David Hine ("The Marked,'" "Sonata"), "Jules Verne's: Lighthouse" gets a sci-fi twist and casts readers into the high seas of outer space for a swashbuckling cyberpunk saga.

Here's the official synopsis:

"Jules Verne's: Lighthouse" is set at the edge of the galaxy, where there is a giant supercomputer known as the Lighthouse. The only brain powerful enough to navigate ships through a Sargasso of naturally occurring wormholes, potentially cutting months or even years of a spaceship's journey. Three humans, one alien, and a nanny bot have manned the remote station for years in relative peace until the arrival of Captain Kongre and his band of cutthroat pirates threatens the future of civilization and reveals that each of the Lighthouse crew has been hiding a shocking secret. He who controls the Lighthouse controls this part of the galaxy."

Exclusive: A little-known Jules Verne adventure novel scores a sci-fi comic book series with 'Lighthouse', Jeff Spry, Space.com

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40 Years Since STS-1...

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The first mission of the Space Shuttle Program, STS-1, blasts off from launch pad 39A on April 12, 1981, attempting to kick off a new era of rapid access to space.

Topics: History, NASA, Space Exploration, Spaceflight, Space Shuttle

In April 1981, John Young — America’s premier astronaut and one of only 12 people to ever walk on the Moon — was training with co-pilot Bob Crippen for STS-1, the maiden voyage of the space shuttle Columbia. Though eager, Young harbored no illusions that he might never return from this first mission of the Space Shuttle Program.

After rocketing into space, Columbia aimed to circle our planet 36 times over two days. But then, unlike the previous spacecraft, it would glide back to Earth, landing on a runway like an airplane. NASA hoped its reusable fleet of four shuttles — Atlantis, Challenger, Discovery, and Columbia — would launch weekly with crews of up to seven, allowing more rapid access to space than ever before. The Space Shuttle Program promised to both revolutionize and routinize spaceflight.

But, as with all cutting-edge technologies, the risks were severe. A month before STS-1, as Columbia sat on Pad 39A at the Kennedy Space Center in Florida, several technicians were asphyxiated by nitrogen fumes while working in the shuttle’s aft fuselage. Two of them later succumbed to their injuries. The accident served as a deadly reminder that spaceflight is a dangerous business, even when still on Earth.

40 years since the first space shuttle mission, STS-1, Ben Evans, Astronomy

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Snaps From Perseverance...

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Combining two images, this mosaic shows a close-up view of the rock target named “Yeehgo” from the SuperCam instrument on NASA’s Perseverance rover on Mars. The component images were taken by SuperCam’s Remote Micro-Imager (RMI). To be compatible with the rover’s software, “Yeehgo” is an alternative spelling of “Yéigo,” the Navajo word for diligent.
Credits: NASA/JPL-Caltech/LANL/CNES/CNRS/ASU/MSSS
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Touchdown...

 

Topics: Mars, NASA, Perseverance, Space Exploration, Spaceflight

Editor's Note: This release was updated on Feb. 22 to correct the metric unit for the speed at which the rover's wheels made contact with the surface to kph.

A new video from NASA’s Mars 2020 Perseverance rover chronicles major milestones during the final minutes of its entry, descent, and landing (EDL) on the Red Planet on Feb. 18 as the spacecraft plummeted, parachuted, and rocketed toward the surface of Mars. A microphone on the rover also has provided the first audio recording of sounds from Mars.

NASA’s Mars Perseverance Rover Provides Front-Row Seat to Landing, First Audio Recording of Red Planet

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Aiming the Archer...

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The 18 members of NASA's Artemis Team, from top left to bottom right: Joe Acaba, Kayla Barron, Raja Chari, Matthew Dominick, Victor Glover, Woody Hoburg, Jonny Kim, Christina Koch, Kjell Lindgren, Nicole Mann, Anne McClain, Jessica Meir, Jasmin Moghbeli, Kate Rubins, Frank Rubio, Scott Tingle, Jessica Watkins and Stephanie Wilson.  (Image credit: NASA via collectSPACE.com)

Topics: Diversity in Science, Moonbase, NASA, Space Exploration, Spaceflight

Artemis, in Greek religion, the goddess of wild animals, the hunt, and vegetation, and of chastity and childbirth; she was identified by the Romans with Diana. Artemis was the daughter of Zeus and Leto and the twin sister of Apollo. Source: Britannica

The Biden administration's crucial first 100 days in office now includes a big human spaceflight pledge.

White House Press Secretary Jen Psaki said Thursday (Feb. 4) that President Joe Biden will carry on the Artemis program to land humans on the moon in the coming years. Artemis began under Biden's predecessor, then-President Donald Trump. 

"Through the Artemis program, the United States government will work with industry and international partners to send astronauts to the surface of the moon — another man and a woman to the moon," Psaki told reporters in a White House press briefing Thursday.

"Certainly, we support this effort and endeavor," she added.

Psaki's comments, which were in answer to a reporter's question, did not mention NASA's 2024 target for the first crewed Artemis moon landing, a deadline set by the Trump administration. Last year, a bipartisan effort in the U.S. House of Representatives sought to push that landing mission to 2028 instead, in line with NASA's previous goals.

US still committed to landing Artemis astronauts on the moon, White House says, Elizabeth Howell, Space.com

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Rocket Science...

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The Fusion Rocket Concept. ITER

Topics: Mars, Nuclear Fusion, Space Exploration, Spaceflight, Women in Science

A physicist has come up with a new rocket engine thruster concept that could take people to Mars ten times more quickly.

The physicist in question, Fatima Ebrahimi, is the concept's inventor and is part of the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL).

Ebrahimi's study was published in the Journal of Plasma Physics.

An engine thruster based on solar flares

One of the main differences between Ebrahimi's new rocket thruster concept and other space-proven ones is that hers uses magnetic fields to boost particles of plasma out of the back of the rocket. So far, space-proven ones use electric fields to boost plasma.

Plasma is one of the four fundamental states of matter and made of gas ions and free electrons. Our Sun is a burning ball of plasma that uses a fusion reaction, for instance.

New Rocket Thruster Concept to Take Humans to Mars 10 Times Faster, Fabienne Lang, Interesting Engineering

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High Flight...

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In this illustration, NASA's Ingenuity Mars Helicopter stands on the Red Planet's surface as NASA's Perseverance rover (partially visible on the left) rolls away.Credits: NASA/JPL-Caltech

Topics: Mars, NASA, Planetary Science, Space Exploration, Spaceflight

"High Flight" by John Gillespie Magee, Jr.

Ingenuity, a technology experiment, is preparing to attempt the first powered, controlled flight on the Red Planet.

When NASA’s Perseverance rover lands on Mars on Feb. 18, 2021, it will be carrying a small but mighty passenger: Ingenuity, the Mars Helicopter.

The helicopter, which weighs about 4 pounds (1.8 kilograms) on Earth and has a fuselage about the size of a tissue box, started out six years ago as an implausible prospect. Engineers at NASA’s Jet Propulsion Laboratory in Southern California knew it was theoretically possible to fly in Mars’ thin atmosphere, but no one was sure whether they could build a vehicle powerful enough to fly, communicate, and survive autonomously with the extreme restrictions on its mass.

Then the team had to prove in Earthbound tests that it could fly in a Mars-like environment. Now that they’ve checked off those objectives, the team is preparing to test Ingenuity in the actual environment of Mars.

“Our Mars Helicopter team has been doing things that have never been done before – that no one at the outset could be sure could even be done,” said MiMi Aung, the Ingenuity project manager at JPL “We faced many challenges along the way that could have stopped us in our tracks. We are thrilled that we are now so close to demonstrating – on Mars – what Ingenuity can really do.”

Ingenuity survived the intense vibrations of launch on July 30, 2020, and has passed its health checks as it waits to plunge with Perseverance through the Martian atmosphere. But the helicopter won’t attempt its first flight for more than a month after landing: Engineers for the rover and helicopter need time to make sure both robots are ready.

6 Things to Know About NASA’s Mars Helicopter on Its Way to Mars

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Lattice Confinement Fusion...

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Illustration of the main elements of the lattice confinement fusion process observed. In Part (A), a lattice of erbium is loaded with deuterium atoms (i.e., erbium deuteride), which exist here as deuterons. Upon irradiation with a photon beam, a deuteron dissociates, and the neutron and proton are ejected. The ejected neutron collides with another deuteron, accelerating it as an energetic “d*” as seen in (B) and (D). The “d*” induces either screened fusion (C) or screened Oppenheimer-Phillips (O-P) stripping reactions (E). In (C), the energetic “d*” collides with a static deuteron “d” in the lattice, and they fuse together. This fusion reaction releases either a neutron and helium-3 (shown) or a proton and tritium. These fusion products may also react in subsequent nuclear reactions, releasing more energy. In (E), a proton is stripped from an energetic “d*” and is captured by an erbium (Er) atom, which is then converted to a different element, thulium (Tm). If the neutron instead is captured by Er, a new isotope of Er is formed (not shown).

Topics: Astrophysics, NASA, Nuclear Fusion, Propulsion, Space Exploration, Spaceflight

A team of NASA researchers seeking a new energy source for deep-space exploration missions recently revealed a method for triggering nuclear fusion in the space between the atoms of a metal solid.

Their research was published in two peer-reviewed papers in the top journal in the field, Physical Review C, Volume 101 (April 2020): “Nuclear fusion reactions in deuterated metals” and “Novel nuclear reactions observed in bremsstrahlung-irradiated deuterated metals.”

Nuclear fusion is a process that produces energy when two nuclei join to form a heavier nucleus. “Scientists are interested in fusion because it could generate enormous amounts of energy without creating long-lasting radioactive byproducts,” said Theresa Benyo, Ph.D., of NASA’s Glenn Research Center. “However, conventional fusion reactions are difficult to achieve and sustain because they rely on temperatures so extreme to overcome the strong electrostatic repulsion between positively charged nuclei that the process has been impractical.

Called Lattice Confinement Fusion, the method NASA revealed accomplishes fusion reactions with the fuel (deuterium, a widely available non-radioactive hydrogen isotope composed of a proton, neutron, and electron, and denoted “D”) confined in the space between the atoms of a metal solid. In previous fusion research such as inertial confinement fusion, fuel (such as deuterium/tritium) is compressed to extremely high levels but for only a short, nano-second period of time, when fusion can occur. In magnetic confinement fusion, the fuel is heated in a plasma to temperatures much higher than those at the center of the Sun. In the new method, conditions sufficient for fusion are created in the confines of the metal lattice that is held at ambient temperature. While the metal lattice, loaded with deuterium fuel, may initially appear to be at room temperature, the new method creates an energetic environment inside the lattice where individual atoms achieve equivalent fusion-level kinetic energies.

NASA Detects Lattice Confinement Fusion

 

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Crew-1...

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Image Source: NASA

Topics: Astronautics, International Space Station, NASA, Space Exploration, Spaceflight

Happy Veteran's Day.

Expedition 1 and Crew-1. These historic International Space Station missions lifting off 20 years apart share the same goals: advancing humanity by using the space station to learn how to explore farther than ever before, while also conducting research and technology demonstrations benefiting life back on Earth.

Crew-1 made up of NASA astronauts Shannon Walker, Victor Glover, and Mike Hopkins, and Japan Aerospace Exploration Agency (JAXA) astronaut Soichi Noguchi, continues the legacy of two decades of living and working in low-Earth orbit by becoming space scientists for the next six months.

Not only will the Crew-1 astronauts and fellow Expedition 64 NASA astronaut Kate Rubins conduct hundreds of microgravity studies during their mission, but they also deliver new science hardware and experiments carried to space with them inside Crew Dragon.

Check out some of the research flying to the space station alongside Crew-1, and scientific investigations the astronauts will work on during their stay aboard the orbiting laboratory.

  • Food Physiology: A better diet for better health
  • Genes in Space-7: A look at astronauts’ brains
  • Plant Habitat-02: Growing radishes in space
  • BioAsteroid: Microscopic microgravity miners
  • Tissue Chips: Using space to study organs
  • Cardinal Heart: An experiment with heart
  • SERFE: Testing a cool spacesuit

Crew-1 Heads to Space Station to Conduct Microgravity Science, Erin Winick, International Space Station Program Research Office, Johnson Space Center

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