Watch for the Eta Aquarid Meteor Shower this Weekend

The radiant of the Eta Aquarids rising. Looking to the south east from latitude 30 degrees north about 3 hours before local sunrise on May 5th. (Created by the author in Stellarium).

An often ignored meteor shower may offer fine prospects for viewing this weekend.

The Eta Aquarid meteors provide a dependable display in early May. With a radiant very near a Y-shaped asterism in northern Aquarius, the Eta Aquarids are one of the very few major showers that provide a decent annual show for southern hemisphere residents.  

This year, the peak of the Eta Aquarids as per the International Meteor Organization (IMO) comes on May 6th at 1:00 UT, or 9:00 PM EDT on May 5th. This favors European longitudes eastward on the morning of Monday, May 6th. The Eta Aquarid radiant rises just a few hours before dawn, providing optimal viewing in the same time frame.

Keep in mind, the shower is active from April 19th to May 28th. Predicting the arrival of the peak of a meteor shower can be an inexact science. North American observers may still see an early arrival of the Eta  Aquarids on May 5th or even the morning of the 4th.

Could “the 4th be with us” at least in terms of meteor shower activity?

The Eta Aquarids are one of two annual meteor showers associated with that most famous of comets: 1P/Halley.  The other shower associated with Halley’s Comet is the October Orionids. This makes it one of the very few periodic comets associated with two established annual meteor showers.

Like the Orionids, the Eta Aquarid meteors have one of the highest atmospheric velocities of any shower, at 66 kilometres per second. Expect short, swift meteors radiating from low in the southeast (or northeast if you’re based south of the equator) a few hours before local dawn.

This year’s ZHR is expected to reach 55. This year also offers outstanding prospects, because the Moon is only a 17% illuminated waning crescent just 4 days from New at the shower’s peak. There’s some thought in the meteor observing community that this shower experiences a cyclical peak every 12 years.

If this is indeed the case, we could be headed towards a mild lull in this shower around the 2014 to 2016 time frame. Performances from the Eta Aquarids over the past few years as per data from the IMO seem to bear this out, with a peak around 2009;

2012=ZHR 69

2011=ZHR 63

2010=No data

2009=ZHR 90

2008=65

Still, 55 per hour is a respectable shower. Keep in mind, the ZHR stands for the “Zenithal Hourly Rate” and is an ideal number. This is the number of meteors an observer could expect to see under dark skies with no light pollution with the radiant directly overhead. Also, remember that no single observer can monitor the entire sky at once!

This is also one of the last big annual showers of the season until the Perseids in mid-August. The Gamma Delphinids (June 11th) and the June Bootids (Jun 27th and the June Lyrids (June 15th) are the only minor showers in June. July also sees another minor shower radiating from the constellation Aquarius, the Delta Aquarids which peak on July 30th. The daytime Arietids in June would put on a fine annual showing if they didn’t occur in… you guessed it… the daytime.

This weekend’s Eta Aquarids will put on a better display for the southern hemisphere, one of the very few showers for which this is true.

It’s a poorly understood mystery. Why does the northern celestial hemisphere seem to contain a majority of major meteor shower radiants? The Geminids, the Leonids, the Perseids, the Quadrantids… all of these showers approach the Earth from above the celestial equator, and even from above the ecliptic plane. The Eta Aquarids are one of the very few major showers that goes against this trend.

Is it all just a coincidence? Perhaps. Like total solar eclipses, meteor showers are as much a product of our position in time as well as space. New streams are shed as comets visit the inner solar system, some for the very first time. These older trails interact with and are dispersed by subsequent passages near planets. The 12 year fluctuation of the Eta Aquarids is thought to be related to the orbit of Jupiter which has a similar period.

For example, one meteor shower known as the Andromedids was prone to epic storm outbursts until the early 20th century. Now the stream is a mere trickle. Meteor showers evolve over time, and perhaps their seeming affinity for the northern hemisphere of our planet is a mere perception of our epoch. Maybe a future study could discern a bias due to the number of prograde versus retrograde cometary orbits, or perhaps statistical scrutiny could reveal that no such partiality actually exists.

All food for thought as you keep vigil these early May mornings for the meteoric “Drops from the Water Jar…” Be sure to post those meteor pics to the Universe Today’s Flickr forum, report those meteor counts to the International Meteor Organization, and tweet those fireball sightings to #Meteorwatch!

Can You Solve This Apollo 1 Spacesuit Mystery?

Apollo 1 astronauts (from left) Virgil "Gus" Grissom, Edward White and Roger Chaffee stand near Cape Kennedy's Launch Pad 34 during training. Credit: NASA

Reader Jeff Arnoldi recently approached me with an intriguing question about this Apollo 1 picture:

Note that the U.S. flag is on their right shoulders. Every other Apollo mission crew and all mission crews since then wear the flag on their left shoulders.  Did the astronauts change after the Apollo 1 fire?  Why did they make the change?

In response, Universe Today put a call out to several people with knowledge of those spacesuits that were used in the Apollo 1 mission, which ended fatally in January 1967 when all three crew members died in a pad fire.

A lot of redesigns were made to the equipment to prevent the same situation from happening again, but it appears the flags were not that crucial to the spacesuit design — even though a new spacesuit was used in Apollo 7.

Weeks of searching later, we have some great theories from the experts about why the flags were switched, but no definitive answer. Feel free to let us know if you have heard anything!

There’s some important historical context about the suit that we’ll get into in a moment, but first, here’s some feedback we received from a few spacesuit experts:

The Apollo 1 crew training at North American's Downey Facility. Note the flags aren't on the spacesuits in this shot. Left to right: Virgil "Gus" Grissom Roger Chaffee, Edward White. Credit: NASA
The Apollo 1 crew training at North American’s Downey Facility. Note the flags aren’t on the spacesuits in this shot. Left to right: Virgil “Gus” Grissom Roger Chaffee, Edward White. Credit: NASA

Walter Cunningham, Apollo 7 astronaut and backup crew member for Apollo 1:

Our crew, obviously, wore both. We were concerned about flexibility and security of the suits. We had no time to be concerned with style or decorations. I know of no policy decision on the question you asked.

Shawn McLeod, field operations manager for David Clark Co. (which constructed the suit):

Our archives indicate photos in the field of the Apollo A1-C suits both with and without the U.S. flag. Based on our literature search, our team believes positioning/placement of the U.S. flag was more than likely performed in the field after the suits were delivered from David Clark Company. Field installation of patches is not unusual – especially, for a program as fast-paced as Apollo. […]

Anecdotal evidence leads us to believe that the flags were sewn on whichever arm there was room. The left arm has a pencil pocket, and maybe with the pencils sticking out they would cover part of the flag, whereas the right arm has the neck seal pocket and a little more room. Furthermore, the referenced photo shows the flag was incorrectly positioned per U.S. Flag code. If they wanted to use a flag on the right sleeve, they would need to use the version with the field of stars facing forward. Perhaps someone noted that at some point and the correction was made.

Ronald Woods, NASA spacesuit expert for 45+ years:

I spoke with one of the suit technicians that supported Apollo 1 and he didn’t remember the flags being on the right arm. I have seen them in several pictures of the Apollo crew at different events, all on the right arm.  Not sure at this time why and who may have sewn them on. During Apollo, we technicians would only sew the crew patches on the flight suits several weeks before launch.

Nicholas de Monchaux, author of Spacesuit: Fashioning Apollo:

I think there is a simple explanation, which is that the Apollo 1 suits were modified Gemini suits made by the David Clark Co., and the Apollo 7 suits were the first generation of [newer manufacturer] ILC suits. My guess is that two different manufacturers took two different approaches.

Apollo 1's crew in another spacesuit shot. From left to right: Virgil "Gus" Grissom, Edward White and Roger Chaffee. Credit: NASA
Apollo 1’s crew in another spacesuit shot. From left to right: Virgil “Gus” Grissom, Edward White and Roger Chaffee. Credit: NASA

To learn more about this type of Apollo spacesuit, Universe Today approached Cathy Lewis — a curator who specializes in spacesuits at the Smithsonian National Air and Space Museum.

Intriguingly, it appears every NASA spacesuit that has a flag on it — besides the A1-C used in Apollo 1 — has its flag on the left. More from Lewis:

In all other suits in our collection where a flag is present, the flag is on the left.  The collection includes suits made for NASA for programs and those made as prototypes and suits made for the USAF [United States Air Force] for the Manned Orbiting Laboratory program.  Just as a note there were no flags in the Mercury suits that B.F. Goodrich made for NASA.

As the Bill Nye: The Science Guy show used to repeat … but wait, there’s more.

Lewis also gave us some great background on the suits used for Gemini and Apollo. The Apollo missions actually had two different sets of pressure garments — the A1-C and the A7-L, while the Gemini missions used the G4-Cs. Essentially, the G4-C and A1-C suits were the same thing (a high-altitude suit design adapted for space), made by the same prime manufacturer — David Clark Co. The next set of suits, the A7-L (made exclusively for space work), had ILC Dover as the prime manufacturer.

Lewis added that she does not see the flag switch as being tied to the change in manufacturer.

Gemini 4 astronaut Jim McDivitt reviewing a crew procedures book in a trailer on the way to the launch pad. His flag was on the left shoulder. Credit: NASA
Gemini 4 astronaut Jim McDivitt reviewing a crew procedures book in a trailer on the way to the launch pad. His flag was on the left shoulder. Credit: NASA

Lewis did a great job summarizing a lot of history in a few paragraphs, so we decided to include her entire e-mail here.

It is not likely to have anything to do with the manufacturers per se, because, DCC had placed the flag on the left shoulder for the Gemini program. The shift between DCC and ILC is a very long and complex story that began in 1962 with the first solicitations for suit prototypes for the Apollo program. ILC was selected as the suit manufacturer in 1965 with Hamilton Standard as the primary contractor by virtue of their government contracting and systems engineering experience.

That corporate relationship fizzled and left NASA with the option of putting off the design of the Moon-walking suits and falling back on their Earth orbital experience with DCC and Gemini for the early, Earth-orbiting Block I missions.

While DCC was making A1-C suits based on the G4-Cs that Ed White had used for the first US spacewalk, they were also competing with ILC, HS and others for the new Moon-walking suit contract.

The 1967 Apollo 204 fire changed NASA’s plans for different Block I and Block II (lunar orbiting and lunar landing) spacesuits. The resulting contract went again to ILC as primary with HS [Hamilton Standard] as sub with responsibility for the life support systems and systems integration for a suit that worked in Earth and lunar orbit and moon-walking.

Unless I am missing something, I don’t see an engineering issue over the placement of the flag.

If you have any other thoughts about why the flag switch occurred, feel free to let us know in the comments!

Why An Astronaut Asked 15 Year Old Abby to Help Get The Word Out

Expedition 36/37 flight engineer Luca Parmitano will -- in an unprecedented move -- send updates from space through a Minnesota teenager. Credit: NASA/Lauren Harnett

It seems an unlikely scenario: a teenager from Minnesota helping Italy’s next astronaut talk to the public about spaceflight. But for Luca Parmitano, who has mentored Abigail “Abby” Harrison for two years, it’s a way to reach out to a young audience. For Abby, it brings her closer to her dream of becoming an astronaut herself.

Parmitano does have the official outreach team available through the Italian Space Agency (which is part of the European Space Agency) and NASA, he acknowledged. Official mission reports will proceed as usual through those agencies’ press releases and social media accounts.

He’s pursuing this partnership with Abby, however, to have an additional “channel” targeted directly at children and teenagers, Parmitano told Universe Today:

It’s very simple. I thought one of the most important things that I can do in my job is talking to young people, youngsters, and try to inspire them try to guide them towards choosing a career path that goes towards science, technology, exploration of all sorts.

My message is to try to find something that you like, and to pursue it, and don’t wait for things to happe, but make it happen yourself. At one point, talking to Abby — this fantastic young girl who is so enthusiastic — I thought maybe she would be much better at communicating with kids than I could. I’m 36 years old. Maybe I don’t realize it, but I may be disconnected from the age group.

Parmitano is no social media pushover himself, though. The first-time flyer has a “landing page” website at LucaParmitano.com giving one-stop shopping for his Twitter, Facebook and Google pages. And just last week, he did a Google+ hangout with his protégé. (You can watch the whole thing below.)

Abby, at the tender age of 15, has amassed qualifications of her own. The Minnesota teenager is a Space Camp alumnus. She’s planning to learn Russian — an important language for the space program — and is already taking lessons in Mandarin. Her Twitter account has about 6,500 followers. And she’s raising money on Rockethub to see Parmitano’s launch in Kazakhstan next month and do outreach afterwards. With 19 days left, Abby’s approaching half of her $35,000 goal.

The aspiring Mars astronaut has a huge list of activities planned during Parmitano’s mission. She’ll share daily updates from the astronaut on her blog (AstronautAbby.com) and various social media profiles. She proposes an “Ask Luca” series where readers will be able to send questions to the Italian astronaut.

There also will be articles to write, Skype classroom chats to do, and a conference tour — including the International Mars Society Convention in August. Besides the social media updates, Abby is in the midst of booking appearances at conferences and scheduling chats with classrooms. There are more than 20 schools who have signed up for her to be a speaker, either in-person or by Skype.

“That is great, because I won’t be able to be there,” Parmitano said with a laugh.

It was two chance connections that brought him together with Abby. In 2011, Abby and her mother flew to Florida to see the penultimate launch of the space shuttle, mission STS-134. Abby’s mother, Nicole, briefly talked to Parmitano at a tweetup. Then Abby herself met Parmitano at the airport while waiting for the flight home.

Abigail Harrison, who calls herself "Astronaut Abby", will give updates from Luca Parmitano's mission. Credit: Abigail Harrison/Nicole Harrison
Abigail Harrison, who calls herself “Astronaut Abby”, will give updates from Luca Parmitano’s mission. Credit: Abigail Harrison/Nicole Harrison

The teenager and astronaut, who both had space dreams from young childhood, made a professional connection. Parmitano agreed to be Abby’s mentor. The two kept in touch in the years following, then Abby proposed her outreach program to compliment ESA’s activities.

“The main difference [over ESA’s outreach] is when it’s my program, it’s kid to kid. I’m trying to show that by working hard, you can do great things, and I’m an example of that,” Harrison said. “As an aspiring astronaut, you can meet amazing people and have amazing experiences.”

As a rookie, Parmitano said he is looking forward to the experiences his first spaceflight will bring, no matter who is watching. He joked that Italy does not really pay attention to him as an astronaut — the media flock to Samantha Cristoforetti, Italy’s first female astronaut, who is expected to reach station on Expedition 42/43.

“From Day 1, since we were selected, every news magazine went crazy for the female astronaut — and by the way, there’s another guy. I started introducing myself as ‘the other guy.’ ”

But the mission is still a notable one for Italy. Parmitano is the first assigned to a flight from the European Space Agency’s latest class of six astronauts, who call themselves The Shenanigans. The Italian Space Agency got this chance due to a substantial hardware contribution to the station program: a modified multipurpose logistics module (Leonardo) that was adapted for use as a laboratory on station. It and two other MPLMs (Raffaello and Donatello) ferried cargo on shuttle flights to use on station, too.

Parmitano will perform the first Italian spacewalk — two of them are planned, in fact. He and crewmate Chris Cassidy (a former Navy SEAL who spoke with Universe Today last month) are scheduled to go outside in July to swap out experiments, put up a blanket to shield part of the station from space exposure, and install new orbital replacement units to upgrade certain ISS functions.

Expedition 35/36 astronaut Luca Parmitano will perform two spacewalks during his mission. Credit: NASA/Lauren Harnett
Expedition 36/37 astronaut Luca Parmitano will perform two spacewalks during his mission. Credit: NASA/Lauren Harnett

In between, of course, Parmitano has dozens of experiments to work through — contributions from various station partners ranging from Japan to Canada.

An Italian one he speaks of frequently involves him deliberately setting controlled fires on station. Called ICE-GA (Italian Combustion Experiment for Green Air), it’s intended to seek renewable fuels that are less polluting than what we use today. Results will be used for future space fuels, and also on the ground to reduce toxic emissions.

Despite his high-flying duties, Parmitano plays down any adulation from Abby.

“She’s a tremendous young lady, and she has enthusiasm to sell, and maturity way beyond her age,” he said. “It’s really an honor for me to be called her mentor. I learn from her more than she learned from me.”

As for how Abby plans to get to Mars, first she is figuring out what interests her to narrow down her university choices.

Abby, who is entering her junior year in high school next year, is conscious that time away from school is hard to do when starting to think about university applications. She’s working out alternative scheduling arrangements with her teachers and keeping them apprised of what could be a busy speaking schedule in the coming months.

She’s still mulling her options for university — perhaps the United States Air Force Academy, or maybe studying geology at the University of Colorado. Along the way, she’ll keep in contact with Parmitano.

“How important it is to work hard was really the main subject of our discussion [at the airport],” Abby said, “and how if you have a dream and you set a goal, you can achieve it with hard work.”

Giveaway: Weird Life: Search for Life that is Very, Very Different from our Own by David Toomey

A new book, Weird Life: The Search for Life That is Very, Very Different from Our Own, looks at the bizarre life we know about, as well as the potentially countless undiscovered forms of very weird life that we can’t even begin to imagine. You can read our full review here.

But we have two free copies of this book to giveaway.

This giveaway will run for a week starting today, so get your entries in! How?

In order to be entered into the giveaway drawing, just put your email address into the box at the bottom of this post (where it says “Enter the Giveaway”) before Monday, May 6, 2013. We’ll send you a confirmation email, so you’ll need to click that to be entered into the drawing.

We’re only going to use these email addresses for Universe Today giveaways/contests and announcements. We won’t be using them for any other purpose, and we definitely won’t be selling the addresses to anyone else. Once you’re on the giveaway notification list, you’ll be able to unsubscribe any time you like.

Book Review: Weird Life: The Search for Life That is Very, Very Different from Our Own

Think about Dr. Seuss’ classic book If I Ran The Zoo. Young Gerald McGrew has an active imagination creating heretofore unheard of creatures to make his zoo the most astounding by far. All of Gerald’s inventions are quite interesting. But add them to the long list of different beings humans across time have dreamt up – from the Sphinx to the Griffin – and they still pale in comparison to actual creatures in existence. And yet, says author David Toomey in his new book Weird Life: The Search for Life That is Very, Very Different from Our Own, there are likely countless undiscovered forms of very weird life that we can’t even begin to imagine.

Find out how to win a copy of this book here!

The very definition of weird involves words such as strikingly odd, strange, and bizarre. David Toomey travels down the strange path of Weird Life starting at the striking discoveries of extremophiles. Extremophile organisms push the boundaries of what conditions we thought life could exist in, thriving in environments too extreme for humans.

Astrobiologists soak up extremophiles because similar environmental conditions in our solar system might correlate with similar extreme life elsewhere. Would life elsewhere look exactly like our cold or acid-loving extremophiles on Earth or would they be even weirder? Vast lakes of liquid methane exist on Saturn’s moon, Titan. Can we find evidence of microscopic life in such an environment? We need to know how to isolate it, what exactly to test for and finance a mission to explore it. The fun part is that Titan is among a handful of strange places we theorize may harbor life in our own solar system. Recent discoveries of planets in other star systems are fodder for speculation of life, familiar to us or what we would deem as weird life.

My family and I recently visited Roswell, New Mexico. The entire town markets itself on the human notion that life exists elsewhere in a varied form from what we see in the mirror every day. Chapter Seven in Toomey’s book discusses “Intelligent Weird Life”. While some scientists having the thrilling job of searching for signs of intelligent life in the universe, some scientists enjoy the search for life on a much smaller scale on Earth – from the ocean’s bottom to the clouds above. Extremophiles push the boundaries of our beliefs and expectations. We are constantly made aware of what little we actually know. It’s possible a strange brew of exotic life exists here on Earth; we’re just not able to detect it, yet.

If phrases like “shadow biosphere”, “silicon life,” “desert varnish,” and “cloud borne Venusians” don’t pique your interest then perhaps this isn’t the book for you. For those interested in life very, very different from our own, this is right up your alley. Chapters entitled “A Bestiary of Weird Life” and “Weird Life in the Multiverse” certainly made this reviewer turn the pages of Weird Life with a childlike glee. Without a doubt, David Toomey’s book will teach you something you don’t know. Information interspersed with humor, appropriate science bios and anecdotes makes this a well rounded book for your bedside reading.

SpaceShipTwo Fires Rocket Engines for First Ever Supersonic Test Flight- Photos & Video

SpaceShipTwo fires her rocket motor in flight for 1st time on April 29, 2013. Credit: MarsScientific.com

SpaceShipTwo fires her rocket motor in flight for 1st time on April 29, 2013. Credit: MarsScientific.com
Updated with more Photos & Video[/caption]

In a momentous and long awaited day in spaceflight, Virgin Galactic’s SpaceShipTwo (SS2) commercial spaceliner named “Enterprise” lit up her hybrid rocket engines in flight and reached supersonic speeds for the first time in history, today, Monday, April 29, 2013 – in the skies over the Mojave Desert in California.

“What a feeling to be on the ground with all the team in Mojave to witness Virgin Galactic go faster than the speed of sound,” wrote Virgin Galacic founder and owner, billionaire Sir Richard Branson, a short while ago.

Branson wants to bring the incomparable joys of human spaceflight– including weightlessness and spectacular views of the Earth’s curvature- to the masses. Thus making science fiction fantasies of the future like “2001: A Space Odyssey” and “Star Trek” a reality – TODAY!

“This is a momentous day and the single most important flight test to date for our Virgin Galactic program,” said Branson from the Mojave Air and Space Port. “What a feeling to be on the ground with all the team in Mojave to witness Virgin Galactic go faster than the speed of sound.”

ShaceShipTwo from Virgin Galactic fires its rocket engines for the first time in history on April 29, 2013 to achieve supersonic speed. Credit: Virgin Galactic
ShaceShipTwo from Virgin Galactic fires its rocket engines for the first time in history on April 29, 2013 to achieve supersonic speed. Credit: Virgin Galactic

The SpaceShipTwo test of Virgin Spaceship Enterprise was conducted by builder Scaled Composites, led by famed aerospace engineer Burt Rutan, and Virgin Galactic.

With Scaled Composites test pilots Mark Stucky and Mike Alsbury at the helm, the engine burn lasted about 16 seconds, exactly as planned and achieved a speed of Mach 1.2 – breaking the sound barrier!

Watch this video of today’s SS2 rocket test flight:

The test flight began at about 7:02 a.m. local California time as SpaceShipTwo took off from Mojave strapped to the belly of the WhiteKnightTwo (WK2) mothership.

SS2 was released from the mothership at an altitude of 47,000 feet (14 km) some 45 minutes into the flight.

“The pilots triggered ignition of the rocket motor, causing the main oxidizer valve to open and igniters to fire within the fuel case. At this point, SS2 was propelled forward and upward to a maximum altitude of 55,000 feet [17 km],” said Virgin Galactic in a statement.

SS2 is powered by RocketMotorTwo, developed by Sierra Nevada Corporation – which is also constructing the manned DreamChaser mini shuttle ‘space taxi’ under contract to NASA and aiming to restart launches of American astronauts from American soil to low Earth orbit and the ISS.

Boom camera shot of SpaceShipTwo breaking the sound barrier.  Credit: Virgin Galactic
Boom camera shot of SpaceShipTwo breaking the sound barrier. Credit: Virgin Galactic

“The first powered flight of Virgin Spaceship Enterprise was without any doubt, our single most important flight test to date,” said Branson, who watched the flight from the grounds of Mojave.

The entire fight lasted about an hour with SS2 gliding back for a safe landing at the Mojave Air and Space Port to conclude the history making flight.

Until today’s engine firing, the SS2/WK2 aerial test flight program had been limited to captive carry and landing drop tests.

Branson’s near term goal is for SpaceShipTwo to fly to space – commonly defined as 62 miles (100 km) altitude – for the first time before year’s end, validate the vehicle with a rigorous test flight program of gradually expanding the flight envelope to insure full operability and safety and then carry the first revenue paying passengers to space thereafter from Spaceport America in New Mexico.

“For the first time, we were able to prove the key components of the system, fully integrated and in flight. Today’s supersonic success opens the way for a rapid expansion of the spaceship’s powered flight envelope, with a very realistic goal of full space flight by the year’s end. We saw history in the making today and I couldn’t be more proud of everyone involved.”

Rumors that this rocket firing test flight was imminent had reached a fever pitch over the past few days, stoked by broad hints in open messages from Branson himself. So, a large group of Virgin employees and space enthusiasts were present today to witness the momentous event (see photos).

Sir Richard Branson hugs designer Burt Rutan as they are surrounded by employee's of Virgin Galactic, The SpaceShip Company and Scaled Composites watch as Virgin Galactic's SpaceShip2 streaks across the sky under rocket power, its first ever since the program began in 2005. Burt's wife Tonya Rutan is at right taking their photo. The spacecraft was dropped from its "mothership", WhiteKnight2 over the Mojave, CA area, April 29, 2013 at high altitude before firing its hybrid power motor. Virgin Galactic hopes to become the first commercial space venture to bring multiple passengers into space on a regular basis.
Sir Richard Branson hugs designer Burt Rutan as they are surrounded by employee’s of Virgin Galactic, The SpaceShip Company and Scaled Composites watch as Virgin Galactic’s SpaceShip2 streaks across the sky under rocket power, its first ever since the program began in 2005. Burt’s wife Tonya Rutan is at right taking their photo. The spacecraft was dropped from its “mothership”, WhiteKnight2 over the Mojave, CA area, April 29, 2013 at high altitude before firing its hybrid power motor. Virgin Galactic hopes to become the first commercial space venture to bring multiple passengers into space on a regular basis.

In the not too distant future, the purpose of SS2 is for everyday folks – not just highly trained astronauts – to experience spaceflight and out of this world views of the Earth below and the heavens above.

Eventually, human spaceflight could be as commonplace as flying aboard a commercial jetliner is today.

SpaceShipTwo can carry 8 people total; including a crew of two pilots and six passengers on suborbital missions to space.

Although SS2 cannot go into Earth orbit, Branson hopes that future varients will achieve orbit.

Branson himself will fly aboard the first commercial SS2 flight. Over 500 people have already plucked down over $200,000 to reserve the unprecedented choice seats.

“Like our hundreds of customers from around the world, my children and I cannot wait to get on board this fantastic vehicle for our own trip to space and am delighted that today’s milestone brings that day much closer,” said Branson.

The Commercial Spaceflight Federation quickly lauded the Virgin Galactic team and issued this statement:

“The Commercial Spaceflight Federation congratulates the team at Virgin Galactic and Scaled Composites for the first powered test flight of SpaceShipTwo today,” said CSF President Michael Lopez-Alegria.

“This incredible achievement is the direct result of the hard work and dedication by these two companies, as well as by RocketMotorTwo developer Sierra Nevada Corporation. Because of their efforts, we are one step closer to achieving safe, routine, and cost-effective access to space that will create abundant opportunities for space-based research and that will inspire the next generation of engineers and scientists. I applaud the team at Virgin Galactic and Scaled Composites for their accomplishment, and the team at Mojave Air & Space Port for their efforts in creating a professional and safe testing environment.”

In this era of stingy federal funding and slashes to NASA’s budget, commercial spaceflight will play a major and increasing role in bringing down the high costs of access to space as well as enabling an expanding science exploration program and private commercial space exploitation programs to open up the High Frontier.

Other private companies like SpaceX and Orbital Sciences are already leading the charge with regards to the commercial space exploration race with their Falcon 9 and Antares commercial rockets – now launching crucial cargo for NASA to the International Space Station (ISS) since the retirement of the Space Shuttle orbiters in 2011.

Ken Kremer

Debunking Comet ISON Conspiracy Theories (No, ISON is Not Nibiru)

ISON as seen from Hubble. (credit: NASA)

Comets always seem to bring ‘em out of the wood work.

There’s a scene from the 1998 movie Deep Impact where the president, played by Morgan Freeman, reveals a terrible truth… the U.S. government has known for over a year that a doomsday comet is headed straight towards Earth, with Hollywood CGI destruction sure to follow.

While dramatic, the scenario is also extremely implausible. On any given evening, amateur astronomers are sweeping the skies using telescopes mounted in backyard observatories that are the envy of many major universities. This effort to discover comets is collaborative and worldwide. If the “Big One” were headed our way, even the likes of Morgan Freeman couldn’t keep it secret.

Trouble is, many unfounded claims are already making their way around the internet about this years’ much anticipated “Comet of the Century,” C/2012 S1 ISON.

Many of these conspiracy theories seem to be a recycling of last years’ Nibiru nonsense. The train of thought runs something like this: Does NASA know something that they’re not telling us? Why are they so interested in this comet? We’ve even had folks ask us why certain patches of Google Earth are “blacked out!”

What ARE they hiding, man?

It’s funny how pseudoscience seems to bubble to the top on YouTube, but I won’t give these conspiracy videos the exposure of the Universe Today platform. With hundreds of thousands of hits, they certainly don’t seem to need it. A simple YouTube search of “ISON” will scare up many wacky ideas about the comet.

In any event, we’ve already fielded several questions from friends and the public on the “dangers” posed by this comet, so we can only imagine that these will grow in intensity as the comet approaches the inner solar system, especially if it performs up to expectations.

What are some of the conspiracy theories out there about Comet ISON?

One currently circulating claim states that Comet ISON has “companions” that have been imaged trailing it. While comets do indeed fragment on occasion, the culprits that can be seen in the .gif animation circulating the internet are easily identified by photography experts as hot pixels in the camera.

Another even more extravagant claim is that Comet ISON will somehow appear “as bright as the Sun.” Even if Comet ISON reaches an expected magnitude equal to that of the full Moon at -13, it will do so when it is less than a degree  from the Sun. Our Sun shines at magnitude -26.74, or over 158,000 times brighter, so it would be very difficult for this comet to compete with the Sun’s brightness in the daytime!

Others seem to worry that this comet — or particles from ISON — could impact Earth. Comet ISON will be making its inner solar system passage safely 0.426 A.U., or a little over 63 million kilometers from Earth even on its closest approach on December 26th. Scientists have defined this comet’s orbit very precisely, and it won’t hit Earth. So, no Comet ISON is not Nibiru — that ‘tenth planet’ destined to destroy Earth that conspiracy lovers can’t seem to let go of.

The debris — which might create a very nice meteor shower — is made up of extremely tiny grains of dust, no more than a few microns wide. Since they will be hitting Earth’s atmosphere at speeds up to 200,000 km/hr (125,000 miles per hour), the particles will burn up.

Here’s a video NASA released about the potential meteor shower from ISON:

Other claims focus on how this comet may cause earthquakes or wreak other untold havoc on Earth. This type of comet hysteria is nothing new. Name a bright comet in history, and you can find a historical event for a convenient tie-in. When haven’t there been earthquakes, pandemics, and wars in history? Plus, according to the US Geological Survey, on any given day there will be an average of 2,750 earthquakes around the world of which 275 are large enough to be felt by humans. But only about 100 earthquakes a year are large enough to cause any damage.

And so, its too easy to tie the “causes” of earthquakes and other events to comets in the sky. Comets have been seen before and during the Norman invasion of England in 1066, an outbreak of the Black Plague in London in 1665, and much more. Gary Kronk maintains a wacky and wonderful list of historical (and sometimes comical) comet “signs and omens” on his Cometography site.

Comet Lovejoy as seen from the International Space Station.
Another brilliant sungrazer, Comet Lovejoy as seen from the International Space Station on December, 2011. (Credit: NASA).

Halley’s Comet produced one of the first great comet hypes of the 20th century with its 1910 passage. Ironically, another comet made a brilliant passage just a few months prior, which became known as the Great Comet of 1910. In fact, many viewers in the general public actually saw this comet and confused it with Halley’s! The recent discovery of cyanogen in the comet’s spectra sparked a panic in the public as hucksters made a small fortune hawking “comet pills” and gas masks to panicked buyers. Never mind that folks ingest more toxic carcinogens from their daily environment than are ever seeded by the tenuous tails of comets.

Another curious bit of hype sprung up in 2011 around Comet Elenin, which promptly broke up and dissipated without even putting on a show. And the supposed earthquakes that conspiracy theorists predicted? Well, the evidence speaks loudly: nothing happened. And the same will be true of Comet ISON. It won’t cause any earthquakes or other disasters. As Don Yeomans from NASA said about Comet Elenin, “It will have an immeasurably miniscule influence on our planet. By comparison, my subcompact automobile exerts a greater influence on the ocean’s tides than comet Elenin ever will.”

So, what’s the harm in all the comet hysteria? Well, one only has to look at the mass suicide of the Heaven’s Gate cult in 1997 to realize that it can be no laughing matter. The suicide was sparked by the idea popularized on the late night Coast to Coast with Art Bell radio show that a spacecraft had been spotted following Comet Hale-Bopp.

Dozens of comets are discovered every year. A great majority are tiny iceballs in unfavorable orbits that never rise above magnitude +10 and are thus of little interest to backyard observers. A couple of times a year, a comet might reach magnitude +6 to +10 and become a fine binocular object.

When a discovery is made — be it by amateur or professional — the first task is to gain enough observations of the object to ascertain its orbit. Once again, we see the international collaborative methods employed by modern science. Already, the cosmic cat’s out of the bag as observatories worldwide make follow up measurements. There are no secrets about Comet ISON that hundreds of astronomers could keep quiet.

You get the idea... a 1687 leaflet depicting the havoc that a comet is sure to bring. (Wikimedia Commons image in the Public Domain).
You get the idea… a 1687 leaflet depicting the havoc that a comet is sure to bring. (Wikimedia Commons image in the Public Domain).

But here are some facts about Comet C/2012 S1 ISON. It was discovered last September by Russian amateurs Vitali Nevski and Artyom Novichonok while making observations for the International Scientific Optical Network (ISON), hence the comet’s name. At the time, it was farther than Jupiter and impossibly faint, but once ISON’s orbit was determined, astronomers realized the comet would pass only 1.1 million miles from center of the Sun (680,000 miles above its surface) on November 28, 2013.

Comet ISON belongs to a special category of comets called sungrazers. As the comet performs a hairpin turn around the Sun on that date, its ices will vaporize furiously in the intense solar heat. Assuming it defies death by evaporation, ISON is expected to become a brilliant object perhaps 10 times brighter than Venus, or maybe even brighter. But that would only occur for a brief time around at perihelion (closest approach to the Sun).

In the end, Comet ISON may put on a good show, but don’t believe the hype.

Comets are notoriously unpredictable when it comes to brightness estimations. To quote comet-hunter David Levy, “Comets are like cats… they have tails, and they do exactly what they want.” But they cannot, however, violate the laws of orbital mechanics!

The orbit and orientation of Comet ISON the day after Christmas 2013 on closest approach to the Earth. (Credit: NASA/JPL's Small-Body Database Browser).
The orbit and orientation of Comet ISON the day after Christmas 2013 on it closest approach to the Earth. (Credit: NASA/JPL’s Small-Body Database Browser).

Saturn Storm’s ‘Suck Zone’ Shown In Spectacular Cassini Shots

A false-color image, taken by the Cassini spacecraft, of a huge hurricane at Saturn's north pole. Credit: NASA/JPL-Caltech/SSI

Checking out the above pictures of a Saturn hurricane, one can’t help but wonder: how close was the Cassini spacecraft to spiralling down into gassy nothingness?

These dizzying images of a hurricane on Saturn, of course, came as the spacecraft zoomed overhead at a safe distance. NASA’s goal in examining this huge hurricane is to figure out its mechanisms and to compare it to what happens on our home planet.

Hurricanes on Earth munch on water vapor to keep spinning. On Saturn, there’s no vast pool of water to draw from, but there’s still enough water vapor in the clouds to help scientists understand more about how hurricanes on Earth begin, and continue.

“We did a double take when we saw this vortex because it looks so much like a hurricane on Earth,” stated Andrew Ingersoll, a Cassini imaging team member at the California Institute of Technology in Pasadena. “But there it is at Saturn, on a much larger scale, and it is somehow getting by on the small amounts of water vapor in Saturn’s hydrogen atmosphere.”

A false-color view of Saturn's storm, as seen through Cassini's wide-angle camera. The blue bands at the edge are Saturn's rings. Credit: NASA/JPL-Caltech/SSI
A false-color view of Saturn’s storm, as seen through Cassini’s wide-angle camera. You can see the eye in dark red, the jet stream in yellowish-green, and low-lying clouds in orange. The blue bands at the edge are Saturn’s rings. Credit: NASA/JPL-Caltech/SSI

There’s one big change in hurricane activity you’d observe if suddenly shifted from Earth to Saturn: this behemoth — 1,250 miles (2,000 kilometers) wide, about 20 times its Earthly counterparts — spins a heckuva lot faster.

In the eye, winds in the wall speed more than four times faster than what you’d find on Earth. The hurricane also sticks around at the north pole. On Earth, hurricanes head north (and eventually dissipate) due to wind forces generated by the planet’s rotation.

“The polar hurricane has nowhere else to go, and that’s likely why it’s stuck at the pole,” stated Kunio Sayanagi, a Cassini imaging team associate at Hampton University in Hampton, Va.

Cassini initially spotted the storm in 2004 through its heat-seeking infrared camera, when the north pole was shrouded in darkness during winter.

The spacecraft first caught the storm in visible light in 2009, when NASA controllers altered Cassini’s orbit so that it could view the poles.

Saturn, of course, is not the only gas giant in the solar system with massive hurricanes. Jupiter’s Great Red Spot has been raging since before humans first spotted it in the 1600s. It appears to be shrinking, and could become circular by 2040.

Neptune also has hurricanes that can reach speeds of 1,300 miles (2,100 kilometers) an hour despite its cold nature; it even had a Great Dark Spot spotted during Voyager’s flypast in 1989 that later faded from view. Uranus, which scientists previously believed was quiet, is a pretty stormy place as well.

Check out this YouTube video for more details on how Saturn’s storm works.

Source: Jet Propulsion Laboratory

Warning Shot: a “Bullet Hole” on the ISS

A hole from a meteorite in the Space Station's solar array

Canadian astronaut and Expedition 35 commander Chris Hadfield just shared this photo on Twitter, showing a portion of one of the solar array wings on the ISS… with a small but very visible hole made by a passing meteoroid in one of the cells.

In typical poetic fashion, Commander Hadfield referred to the offending object as “a small stone from the universe.”

“Glad it missed the hull,” he added.

Hole in an ISS solar cell made by a meteoroid
Hole in an ISS solar cell made by a meteoroid

While likened to a bullet hole, whatever struck the solar panel was actually traveling much faster when it hit. Most bullets travel at a velocity of around 1,000-2,000 mph (although usually described in feet per second) but meteoroids are traveling through space at speeds of well over 25,000 mph — many times faster than any bullet!

Luckily the ISS has a multi-layered hull consisting of layers of different materials (depending on where the sections were built), providing protection from micrometeorite impacts. If an object were to hit an inhabited section of the Station, it would be slowed down enough by the different layers to either not make it to the main hull or else merely create an audible “ping.”

Unnerving, yes, but at least harmless. Still, it’s a reminder that the Solar System is still very much a shooting gallery and our spacefaring safety relies on the use of technology to protect ourselves.

Image: NASA / Chris Hadfield

Fact: The 110 kilowatts of power for the ISS is supplied by an acre of solar panels!

Herschel Space Telescope Closes Its Eyes on the Universe

ESA’s Herschel space observatory set against a background image of the Vela C star-forming region. Copyright ESA/PACS & SPIRE Consortia, T. Hill, F. Motte, Laboratoire AIM Paris-Saclay, CEA/IRFU – CNRS/INSU – Uni. Paris Diderot, HOBYS Key Programme Consortium.

Sadly – though as expected – the most powerful far-infrared orbital telescope put in orbit has ended mission. The Herschel space observatory has now run out of liquid helium coolant, ending more than three years of pioneering observations of the cool Universe.

The spacecraft needs to be at temperatures as low as 0.3 Kelvin, or minus 459 degrees Fahrenheit to make its observations, and mission scientists and engineers knew since Herschel’s launch on May 14, 2009 that the 2,300 liters of liquid helium would slowly evaporate away.

The Herschel team sent out a notice that the helium was finally exhausted today, noted at the beginning of the spacecraft’s daily communication session with its ground station in Western Australia. The data showed a clear rise in temperatures measured in all of Herschel’s instruments.

“Herschel has exceeded all expectations, providing us with an incredible treasure trove of data that that will keep astronomers busy for many years to come,” said Alvaro Giménez Cañete, ESA’s Director of Science and Robotic Exploration.

The Herschel telescope will be parked indefinitely in a heliocentric orbit, as a way of “disposing” of the spacecraft. It should be stable for 100s of years, but perhaps scientists will figure out another use for it in the future. One original idea for disposing of the spacecraft was to have it impact the Moon, a la the LCROSS mission that slammed into the Moon in 2009, and it would kick up volatiles at one of the lunar poles for observation by another spacecraft, such as the Lunar Reconnaissance Orbiter. But that idea has been nixed in favor of parking Herschel in a heliocentric orbit.

What has Herschel done in its three years of observations? It has made over 35,000 scientific observations, amassing more than 25,000 hours’ worth of science data from about 600 different observing programs. A further 2,000 hours of calibration observations also contribute to the rich dataset, which is based at ESA’s European Space Astronomy Centre, near Madrid in Spain.

But there will be more news the future from Herschel’s observations, as scientists comb through the data. The Herschel team said today that the telescope’s data is expected to provide even more discoveries than have been made during the lifetime of the Herschel mission.

“Herschel’s ground-breaking scientific haul is in no little part down to the excellent work done by European industry, institutions and academia in developing, building and operating the observatory and its instruments,” saids Thomas Passvogel, ESA’s Herschel Program Manager.

“Herschel has offered us a new view of the hitherto hidden Universe, pointing us to a previously unseen process of star birth and galaxy formation, and allowing us to trace water through the Universe from molecular clouds to newborn stars and their planet-forming discs and belts of comets,” said Göran Pilbratt, ESA’s Herschel Project Scientist.

Source: ESA