Transcript

Yes, sure its fun to see a lady spin around like that, but I had one of my friends ask me - “Where do you even use this mate?”

Here’s one application that I know very well off.

Spin Stabilization

If you have ever seen a rocket launch, you might know that sometimes the rockets are given a spin while launching. This is known as spin stabilization.

Basically, the rotational inertia of the rotating body will stabilize the rocket against any disturbances and help maintain its intended heading.

The same principle is used in rifling of firearms as well. **

YoYo DeSpin

Okay, now there is the question how to “De-spin” the rocket:

Well, you do what the lady does: stretch out your arms and you will slow down !

The rocket has weights connected to a cable that stretch out and almost immediately the rocket slows down. This maneuver is known as the YoYo DeSpin. ( Damn good name ! )

All thanks to the conservation of angular momentum !

Have a good one !

* Another method to stabilization : 3-axis stabilization

** Bullets spin stabilization - post

** Source rocket launch video

Cosmos is a Greek word for the order of the universe. It is, in a way, the opposite of Chaos. It implies the deep interconnectedness of all things. It conveys awe for the intricate and subtle way in which the universe is put together.

Carl Sagan, Cosmos  (via wordsnquotes)

Margaret Hamilton is a computer scientist and mathematician. She was the lead software engineer for Project Apollo.  Her work prevented an abort of the Apollo 11 moon landing. She’s also credited for coining the term “software engineer." 

NASA's Swift Mission Maps a Star's 'Death Spiral' into a Black Hole

NASA - Swift Mission patch. March 20, 2017 Some 290 million years ago, a star much like the sun wandered too close to the central black hole of its galaxy. Intense tides tore the star apart, which produced an eruption of optical, ultraviolet and X-ray light that first reached Earth in 2014. Now, a team of scientists using observations from NASA’s Swift satellite have mapped out how and where these different wavelengths were produced in the event, named ASASSN-14li, as the shattered star’s debris circled the black hole. “We discovered brightness changes in X-rays that occurred about a month after similar changes were observed in visible and UV light,” said Dheeraj Pasham, an astrophysicist at the Massachusetts Institute of Technology (MIT) in Cambridge, Massachusetts, and the lead researcher of the study. “We think this means the optical and UV emission arose far from the black hole, where elliptical streams of orbiting matter crashed into each other.”

Swift Charts a Star’s ‘Death Spiral’ into Black Hole

Video above: This animation illustrates how debris from a tidally disrupted star collides with itself, creating shock waves that emit ultraviolet and optical light far from the black hole. According to Swift observations of ASASSN-14li, these clumps took about a month to fall back to the black hole, where they produced changes in the X-ray emission that correlated with the earlier UV and optical changes. Video Credits: NASA’s Goddard Space Flight Center. Astronomers think ASASSN-14li was produced when a sun-like star wandered too close to a 3-million-solar-mass black hole similar to the one at the center of our own galaxy. For comparison, the event horizon of a black hole like this is about 13 times bigger than the sun, and the accretion disk formed by the disrupted star could extend to more than twice Earth’s distance from the sun. When a star passes too close to a black hole with 10,000 or more times the sun’s mass, tidal forces outstrip the star’s own gravity, converting the star into a stream of debris. Astronomers call this a tidal disruption event. Matter falling toward a black hole collects into a spinning accretion disk, where it becomes compressed and heated before eventually spilling over the black hole’s event horizon, the point beyond which nothing can escape and astronomers cannot observe. Tidal disruption flares carry important information about how this debris initially settles into an accretion disk. Astronomers know the X-ray emission in these flares arises very close to the black hole. But the location of optical and UV light was unclear, even puzzling. In some of the best-studied events, this emission seems to be located much farther than where the black hole’s tides could shatter the star. Additionally, the gas emitting the light seemed to remain at steady temperatures for much longer than expected. ASASSN-14li was discovered Nov. 22, 2014, in images obtained by the All Sky Automated Survey for SuperNovae (ASASSN), which includes robotic telescopes in Hawaii and Chile. Follow-up observations with Swift’s X-ray and Ultraviolet/Optical telescopes began eight days later and continued every few days for the next nine months. The researchers supplemented later Swift observations with optical data from the Las Cumbres Observatory headquartered in Goleta, California.

Image above: This artist’s rendering shows the tidal disruption event named ASASSN-14li, where a star wandering too close to a 3-million-solar-mass black hole was torn apart. The debris gathered into an accretion disk around the black hole. New data from NASA’s Swift satellite show that the initial formation of the disk was shaped by interactions among incoming and outgoing streams of tidal debris. Image Credit: NASA’s Goddard Space Flight Center.  In a paper describing the results published March 15 in The Astrophysical Journal Letters, Pasham, Cenko and their colleagues show how interactions among the infalling debris could create the observed optical and UV emission. Tidal debris initially falls toward the black hole but overshoots, arcing back out along elliptical orbits and eventually colliding with the incoming stream. “Returning clumps of debris strike the incoming stream, which results in shock waves that emit visible and ultraviolet light,” said Goddard’s Bradley Cenko, the acting Swift principal investigator and a member of the science team. “As these clumps fall down to the black hole, they also modulate the X-ray emission there.”

Swift spacecraft. Image Credit: NASA

Future observations of other tidal disruption events will be needed to further clarify the origin of optical and ultraviolet light. Goddard manages the Swift mission in collaboration with Pennsylvania State University in University Park, the Los Alamos National Laboratory in New Mexico and Orbital Sciences Corp. in Dulles, Virginia. Other partners include the University of Leicester and Mullard Space Science Laboratory in the United Kingdom, Brera Observatory and the Italian Space Agency in Italy, with additional collaborators in Germany and Japan. Related: Scientists Identify a Black Hole Choking on Stardust (MIT): http://news.mit.edu/2017/black-hole-choking-stardust-0315 ASASSN-14li: Destroyed Star Rains onto Black Hole, Winds Blow it Back: http://chandra.harvard.edu/photo/2015/tidal/ 'Cry’ of a Shredded Star Heralds a New Era for Testing Relativity: https://www.nasa.gov/mission_pages/swift/bursts/shredded-star.html Researchers Detail How a Distant Black Hole Devoured a Star: https://www.nasa.gov/mission_pages/swift/bursts/devoured-star.html All Sky Automated Survey for SuperNovae (ASASSN): http://www.astronomy.ohio-state.edu/~assassin/index.shtml Las Cumbres Observatory: https://lco.global/ NASA’s Swift: http://www.nasa.gov/mission_pages/swift/main/index.html Images (mentioned), Video (mentioned), Text, Credits: NASA’s Goddard Space Flight Center, by Francis Reddy/Karl Hille. Greetings, Orbiter.ch Full article

Does space have a standard time or do you rely on the time zones on Earth while you are in space?

Great question.  Really it is up to the particular space agency/mission which time zone they use.  For example, since the International Space Station is a collaboration between NASA, the Russian Space Agency, the European Space Agency, the Japanese Space Agency, and the Canadian Space Agency, we came up with the compromise of operating on Greenwich Mean Time (GMT).  So, Space Station time is the same as London time!  The International Space Station orbits our planet every 90 minutes, so of course we’re transiting across multiple time zones constantly.  

Ep. 16 Voyager Golden Record - HD and the Void

Full disclosure: this is a kissing story. A kissing story about the ultimate mixtape and alien communication plan, sent out in 1977 and now in interstellar space. Hear about the Voyager Golden Record and the people who put it together as a compila...

The process of making an audio and visual compilation to explain Earth and humanity to an alien species is an incredible undertaking, and Carl Sagan undertook it in 1977. The resulting record from his little team was sent out with the Voyager 1 and 2 probes and is now in interstellar space, but there was also a more personal result of this project. Learn about Sagan and his third wife’s meet-cute and also hear what is actually out there in the stars, conveying the best humanity had to offer in the 70s. 

Below the cut are my sources, music credits, a vocab list, and the transcript of this episode. Vote on what you think I should research next by messaging me here, tweeting at me at @HDandtheVoid, or asking me to my face if you know me in real life. And please subscribe to the podcast on iTunes, rate it and maybe review it, and tell friends if you think they’d like to listen!

(My thoughts on the next episode are space race history, the transit of Venus, Edmond Halley, or Dark Sky Preserves. Next episode will be up on December 4th.)

Glossary

electroencephalography (EEG) - a recording that displays brainwave activity by measuring the electrical impulses of neurons firing in the brain

heliosheath - the outer region of the heliosphere. It is just beyond termination shock, the point where solar wind abruptly slows down and becomes denser and hotter as it presses outward against the approaching wind in interstellar space.

heliosphere - a huge wind sock-shaped bubble that extends beyond Pluto’s orbit and contains our solar system, solar wind, and the entire solar magnetic field.

Transcript

Sources

Drunk History episode transcript

Golden record via NASA

Carl Sagan via Smithsonian Magazine, March 2014

Carl Sagan via Biography.com

Carl Sagan via National Geographic

The Voyager project love story via NASA

Ann Druyen: “We know that EEG patterns register some changes in thought. Would it be possible, I wondered, for a highly advanced technology of several million years from now to actually decipher human thoughts?"

Ann Druyen: "a mental itinerary of the ideas and individuals of history whose memory I hoped to perpetuate."

Ann Druyen: "My feelings as a 27-year-old woman, madly fallen in love, they're on that record. It's forever. It'll be true 100 million years from now. For me, Voyager is a kind of joy so powerful, it robs you of your fear of death."

Arthur C. Clarke: "Please leave me alone; let me go on to the stars."

How 8-track tapes work via 8 Track Heaven

How vinyl records work via The Guardian, June 2010

Golden record via Smithsonian Magazine, April 2012

Golden record via the JPL at NASA

Golden record retrospective by Timothy Ferris via The New Yorker, August 2017

Voyager Golden Record - Greetings In 55 Languages via YouTube

The 116 images NASA wants aliens to see via YouTube

The Voyagers documentary by Penny Lane via Brain Pickings

Ann Druyen: “Carl and I knew we were the beneficiaries of chance, that pure chance could be so kind that we could find one another in the vastness of space and the immensity of time. We knew that every moment should be cherished as the precious and unlikely coincidence that it was.”

Article on Sagan’s divorce from Linda Salzman Sagan via People, December 1980

Article on Sagan’s divorce from Linda Salzman Sagan via The Cornell Daily Sun, March 1981

Voyager record available on Soundcloud via Cosmos Magazine

Golden record now available for purchase via The Atlantic, August 2017

Intro Music: ‘Better Times Will Come’ by No Luck Club off their album Prosperity

Filler Music:  ‘Dark Was The Night, Cold Was The Ground’ by Blind Willie Johnson (1897-1945) off the album Dark Was The Night ‘Carl Sagan’ by Loch Lomond off their album Paper The Walls

Outro Music: ‘Fields of Russia’ by Mutefish off their album On Draught

I talked about Proxima Centauri last week but didn't realize it has a planet!

It’s starry scholastic month! Planet X will start it off with his first lesson: Proxima B!

http://www.space.com/33845-why-proxima-b-exoplanet-hard-to-find.html

Ep. 22 African-American Astrophiles - HD and the Void

As Black History Month 2018 wraps up, learn about some of the African-American men and women who have contributed to space research and exploration! 7 astronomers and 9 astronauts shine in this episode, which spans from the 1700s to modern-day folks.

February is Black History Month, and it’s been the perfect excuse to research all of the African-American people who have contributed to space research and exploration! I talk about seven astronomers and nine astronauts who have delved into outer space because it was just so dang amazing, nothing could stop them from learning about it; astrophiles, if you will. Space-lovers.

Below the cut, I have the transcript, sources, music credits, and timeline of people I talked about! Maybe you have something you want to hear me talk about that’s related to space. I’m kind of set for topics for the next few months but I’ll take suggestions here or you can tweet at me on Twitter at @HDandtheVoid, or you can ask me to my face if you know me. Please subscribe on iTunes, rate my humble podcast and maybe review it, and tell friends if you think they’d like to hear it!

(My thoughts on the next episode are the SOFIA observatory, Chuck Yaeger, the transit of Venus, or quasars and blasars. The next episode will go up March 19th, unfortunately; I have a work retreat the day I’d usually post and I don’t trust the wifi out there. See you then!)

Script/Transcript

Timeline

Benjamin Banneker, American (1731-1806)

Dorothy Vaughan, American (1910-2008)

Katherine Johnson, American (1918- )

Mary Jackson, American (1921-2005)

Ed Dwight, American (1933- )

Robert Henry Lawrence, American (1935-1967)

Doctor Arthur Bertram Cuthbert Walker II, American (1936-2001)

Frederick Gregory, American (1941- )

Guion "Guy" Bluford, American (1942- )

Doctor Ronald E. McNair, American (1950-1986)

Ilan Ramon, Israeli, American (1954-2003)

Doctor Bernard Harris, Jr., American (1956- )

Doctor Mae Jemison, American (1956- )

Neil DeGrasse Tyson, American (1958- )

Michael P. Anderson, American (1959-2003)

Leland Melvin, American (1964- )

Doctor Beth A. Brown, American (1969-2008)

Sources

African Americans in Astronomy and Space via ThoughtCo (Mar 2017)

Benjamin Banneker via Encyclopedia Britannica

Benjamin Banneker via PBS

Benjamin Banneker via America’s Library

Benjamin Banneker via Brookhaven National Laboratory

Hidden Figures (2016)

Katherine Johnson via NASA

Mary Jackson via NASA

Dorothy Vaughan via NASA

Doctor Arthur Bertram Cuthbert Walker II via Encyclopedia Britannica

Doctor Arthur Bertram Cuthbert Walker II obituary via the American Astronomical Society

Ed Dwight via The History Makers

Robert Henry Lawrence via Black Past

Robert Henry Lawrence via PBS

Robert Henry Lawrence via Hill Air Force Base

Guion "Guy" Bluford via Space.com (Feb 2017)

Guion Bluford: “I mean, I laughed and giggled all the way up. It was such a fun ride.” 

Guion "Guy" Bluford via NASA

Guion "Guy" Bluford via Encyclopedia Britannica

Doctor Ronald E. McNair via NASA

Doctor Ronald E. McNair via Black Past

Doctor Ronald E. McNair via New Jersey Institute of Technology

Frederick “Fred” Gregory via NASA

Frederick “Fred” Gregory via Black Past

The Harris Foundation website

“empower individuals, in particular minorities and others who are economically and/or socially disadvantaged, to recognize their potential and pursue their dreams.”

Doctor Mae Jemison via NASA

Doctor Mae Jemison via NASA

Doctor Mae Jemison via the U.S. National Library of Medicine

Mae Jemison: “I followed the Gemini, the Mercury, and the Apollo programs, I had books about them and I always assumed I would go into space. Not necessarily as an astronaut; I thought because we were on the moon when I was 11 or 12 years old, that we would be going to Mars—I'd be going to work on Mars as a scientist. And that's despite the fact that there were no women, and it was all white males—and in fact, I thought that was one of the dumbest things in the world, because I used to always worry, believe it or not as a little girl, I was like: What would aliens think of humans? You know, these are the only humans?”

Michael P. Anderson via NASA

Michael P. Anderson via Black Past

Ilan Ramon via NASA

Leland Melvin via Space.com (Nov 2017)

Leland Melvin as Makers Men via Space.com (May 2017)

Leland Melvin via NASA

Leland Melvin via Pioneer Works

Doctor Beth A. Brown via the American Physical Society

Doctor Beth A. Brown via the American Astronomical Society

Doctor Beth A. Brown via NASA

Neil DeGrasse Tyson via Hayden Planetarium

Neil DeGrasse Tyson via the New Yorker

StarTalk Radio via Apple Podcasts

Intro Music: ‘Better Times Will Come’ by No Luck Club off their album Prosperity

Filler Music: ‘Dorothy Dandridge Eyes (feat. Esperanza Spalding)’ by Janelle Monáe off her album The Electric Lady.

Outro Music: ‘Fields of Russia’ by Mutefish off their album On Draught

In the Heart of the Virgo Cluster : The Virgo Cluster of Galaxies is the closest cluster of galaxies to our Milky Way Galaxy. The Virgo Cluster is so close that it spans more than 5 degrees on the sky - about 10 times the angle made by a full Moon. With its heart lying about 70 million light years distant, the Virgo Cluster is the nearest cluster of galaxies, contains over 2,000 galaxies, and has a noticeable gravitational pull on the galaxies of the Local Group of Galaxies surrounding our Milky Way Galaxy. The cluster contains not only galaxies filled with stars but also gas so hot it glows in X-rays. Motions of galaxies in and around clusters indicate that they contain more dark matter than any visible matter we can see. Pictured above, the heart of the Virgo Cluster includes bright Messier galaxies such as Markarians Eyes on the upper left, M86 just to the upper right of center, M84 on the far right, as well as spiral galaxy NGC 4388 at the bottom right. via NASA

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