The Science Behind “Chasing UFOs” – Episodes 7 and 8

1 09 2012

The Chasing UFOs team: Erin Ryder, me, and James Fox (left-to-right) interviewing Brigadier Jose Pereira. (Credit: Dave West)

Well, so I’ve gotten a little behind here on the personal blog, life’s unexpected twists and turns being what they are.  However, for completeness’s sake, I’m including links to my final two web contributions to the National Geographic Channel’s TV series, “Chasing UFOs.”

Without getting nostalgic, it’s been a heck of a ride.  Based on the content of these blogs, I think many would rightfully conclude that much of the scientific angle of the show wasn’t featured in the way I expected or would have preferred.  However, having the opportunity to engage – and more specifically – to try and deliver real planetary science content and a critical and logical scientific viewpoint to public discussions of astronomy, the possibility of extraterrestrial life, and the realities of spaceflight, is something I will forever appreciate.

So, without further ado, for those who might like to delve more deeply into (or simply know more about the science behind) the National Geographic Channel series “Chasing UFOs,” including global thermonuclear war and Brazilian UFOs, misidentified marmosets, upside-down moons, volcanoes and “dirty” lightning, and oil field interlopers from space, look no further!

Episode 7, “Alien Castaways” :

http://tvblogs.nationalgeographic.com/2012/08/09/the-science-of-chasing-ufos-alien-castaways/

Episode 8, “Alien Baby Farm” :

http://tvblogs.nationalgeographic.com/2012/08/17/the-science-of-chasing-ufos-alien-baby-farm/

Many thanks to everyone who supported me in this project, either directly or indirectly by reading these blogs.  My foray into ‘reality TV’ was at the very least an valuable education for me in the realities of TV, and at the end of the day, it was a real kick in the pants.  I had the opportunity to interact with a broad cross-section of people from around the world that I would have never had the opportunity to speak with otherwise, and hopefully as a result, at least a few were inspired to look into what we really do know about the night sky and spaceflight, and to wait just a little longer before leaping to the “It’s aliens!” hypothesis. =)

In closing this season out, I say Semper Exploro! – or, “Always Explore!”

Cheers,

Ben

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The Science Behind “Chasing UFOs” – Episode 6

4 08 2012

Me meeting with Apollo 14 astronaut Dr. Edgar Mitchell.

For those who might like to delve more deeply into (or simply know more about the science behind) the National Geographic Channel series “Chasing UFOs,” including paradoxes, Apollo astronauts, and billion-in-one reflections, look no further!

Direct link-through to my article on the NatGeo TV blog can be found here:

http://tvblogs.nationalgeographic.com/2012/08/04/the-science-of-chasing-ufos-game-of-drones/

Cheers!

Ben





The Science Behind “Chasing UFOs” – Episode 4

16 07 2012

https://i2.wp.com/tvblogs.nationalgeographic.com/files/2012/07/RoswellTopCongrid.jpg

For those who might like to dig farther into (or simply know more about the science behind) the National Geographic Channel series “Chasing UFOs,” including debris field surveys, exploding rockets, and the classic argument from ignorance, look no further!

Direct link-through to my article on the NatGeo TV blog can be found here:

http://tvblogs.nationalgeographic.com/2012/07/16/the-science-of-chasing-ufos-ufo-landing-zone-2/

Cheers!

Ben





The Science Behind “Chasing UFOs” – Episode 2

30 06 2012
https://i2.wp.com/tvblogs.nationalgeographic.com/files/2012/06/edit-diagram-blog.jpg

Fieldbook sketch of possible crash sighting and survey sites outside of Fresno, CA. (Credit: Ben McGee)

For those who might like to delve more deeply into (or simply know more about the science behind) the second episode of National Geographic’s TV series “Chasing UFOs,” including industrial archaeology, cargo cults, radioactive tunnels, and orienteering troubles, check it out!

Direct link to my article on the NatGeo TV blog here:

http://tvblogs.nationalgeographic.com/2012/06/30/the-science-of-chasing-ufos-dirty-secrets/

Cheers!

Ben





The Science Behind “Chasing UFOs” – Episode 1

30 06 2012

A Saturn V rocket at NASA’s Johnson Space Center. (Credit: Ben McGee)

For those who might like to delve more deeply into (or simply know more about the science behind) the National Geographic Channel series “Chasing UFOs,” including moon rockets, interviews with a former NASA Human Factors Director, and an artifact find at the Old Grist Mill, look no further!

Link through to my article on the NatGeo TV blog here:

http://tvblogs.nationalgeographic.com/2012/06/30/the-science-of-chasing-ufos-texas-is-for-sightings/

Cheers, and here goes nothing!

Ben





Science outreach, crossing the mainstream divide, and “Chasing UFOs”

24 05 2012

Hosts James Fox, Me, and Erin Ryder during the filming of National Geographic’s “Chasing UFOs.” (Credit: David West)

I know there will be quite a lot on this here at the Astrowright blog in the coming weeks and months, but to begin very briefly, I’m excited to report that I’m set to appear on/host a National Geographic series next month (somewhat sensationally) entitled, “Chasing UFOs.”  

The project zeroed in on the “top 5%” – the most bizarre or inexplicable – of all alleged unidentified flying object cases in history.  However, unlike previous programs, in addition to firsthand interviews, we physically travel to the site of each alleged event, whether on a mountaintop or in the Amazon, to see if any material evidence exists to support extraordinary claims.

Aside from the “field adventure” component, the show’s presentation is novel in that three different viewpoints are represented in each case – skeptic, believer, and “agnostic.”  I’m thrilled that NatGeo has endorsed including someone like me on a project like this – essentially allowing the scientific/skeptical viewpoint to be heard. 

This is ultimately why I decided to engage in the project in the first case. 

For those who have been reading this blog for any length of time, it is obvious that I sit squarely on the skeptical side of the fence.   (In my view that’s the side that history ultimately bears out.)  However, I’m also comfortable enough in my own “scientist” skin to be willing to dive into any question, even if it has been (perhaps justifiably) shrugged off by mainstream academia.  This is particularly true when it concerns something for which there is a great deal of public interest and that exists in such close proximity to my personal passions – planetary science and space exploration.  In my view, the important thing to note is that people curious about UFOs are asking the right sorts of questions:

  • “What is going on in the night sky?”
  • “Are we alone in the universe?”
  • “What is the possibility of extraterrestrial life?”

-And with pseudoscientific, speculation-riddled and archaeology-confounding programs out there like “Ancient Aliens,” if scientists refuse to engage in mainstream media and contribute to the conversation, the conservative scientific viewpoint will rarely (or worse, never) be heard or explained.  If it is obvious to an astronomer that a flashing “UFO” is simply light from Venus on the horizon taking a long path-length through the atmosphere, and he or she doesn’t bother to explain it, science doesn’t stand a chance in the face of a passionate “talking head” declaring it to be proof of extraterrestrial intelligence in our own skies.  We fail twice – first to capture an excellent learning moment and secondly in that we ultimately succeed only in disenfranchising a curious public with respect to the scientific establishment.

As anyone in the sciences knows, STEM outreach needs all the help it can get.  We have to engage.  (And who knows?  I’m open to the possibility that people have really seen something extraordinary if evidence backs it up, though I would be just as excited were it to be exotic high-altitude electrical phenomena as opposed to green men from Mars.)

So, here goes.  Set the time circuits for June 29, 2012 at 09:00 on the NatGeo channel.  I haven’t seen the finished product myself, but I know what we did and guarantee it to be an action-packed, thought-provoking ride. 

Tune in and please feel free to let me know what you think!





Rhinegold, Space Cowboys, and “Planetary Resources”

19 04 2012

The internet is alight with rumors concerning the James Cameron/Charles Simonyi/Peter Diamandis/Eric Anderson-backed superproject, not yet more than a speculation-frothing logo, to be announced April 24th:

These rumors go on to speculate that the venture will be a full-fledged asteroid-mining venture, sparked in no small part by the media alert sent by the company yesterday, which stated that it “will overlay two critical sectors — space exploration and natural resources — to add trillions of dollars to the global GDP.”

Let’s just say that’s where I was given pause.  Of course it’ll be extraterrestrial resources, (as if the name isn’t overt enough,) but I agree – they’ll likely be going after nickel-iron asteroid bodies and platinum-group metals, to start.

Why would I say so?  Well, I calculated those very same numbers 13 years ago.

The Rhinegold Project

Set the time machine back to 1999 for a moment.

There, at the University of Wyoming, in the back corner of an undergraduate physics course, you’d find a couple of young, idealistic astrophysics majors ignoring the lecture on frictionless surfaces and discussing the problems that brought us there: Dark Energy, (though it hadn’t been named that, yet; it was the High-Z Problem at that time,) Dark Matter, and Space Colonization.

Rhinegold Project logo. (Credit: Ben McGee/ITD)

Yes, one of these young scientists-to-be was yours truly.  The other was one of my best friends (and future jazz compatriot), Chris Hackman.  And it was there, in the back corner of that lecture hall, that I performed my first back-of-the-envelope calculations on harvesting the material in a single, mile-sized nickel-iron-rich asteroid.

On its face, the number was in the trillions of dollars.

I knew this was a rough number, an overestimate.  -But even accounting for flooding the terrestrial nickel and iron markets, the number was still (literally) astronomical.  It would more than pay for the cost of development, should only someone front the (we calculated) four-to-ten-billion dollars required to get the program running.

Literally trillions of dollars of harvest-able material is waiting, ripe for the plucking, between the orbits of Jupiter and Mars, should someone only figure out how to get to it and bring it back.

So, we decided to try and lay the groundwork ourselves under a non-profit science research institute I founded in 2002, called the Institute of Temporal Dynamics (now retired).  We called the project The Rhinegold Project.

(Being music geeks as well, we liked the metaphor to the Wagner opera.  Like the legend, we planned to harvest the material and forge it into a ring – in this case, a Von-Braun-ian, artificial-gravity space station.)

I rallied friends of mine to the cause: Aspiring chemical engineers; mechanical engineers; other geology students.  We worked out orbital interception scenarios as well as in-situ harvesting architectures.  And as far as we could tell, we were amongst the first to approach the problem seriously.

Space Cowboys

Our Microgravity Centrifugal Smelter NASA proposal, ca. 2004.

Our project matured as did our degree paths.  By 2004, I’d switched to planetary geology and had taken the lead on an interdisciplinary college team to attempt the first in-situ asteroid-mining proof-of-concept for NASA’s KC-135 “Microgravity University” grant program.  Our team?  The UWyo “Space Cowboys,” and our project: the “Microgravity Centrifugal Smelter,” or MCS.

Ultimately, our project was not selected to fly – a devastating blow being that we lost to another University of Wyoming team testing their second year of a resistance exercise machine, something far less ambitious, in our opinion.  (We had a microwave reactor ready to go and breakthrough phase-transition boundary-condition chemical engineering showing that our low-temperature resource-and-matrix analogue asteroid would perform like a real one at lower “smelting” temperatures.)

The UWyo Space Cowboys then graduated and scattered to the wind.

Full Circle – Astrowright and the University of North Dakota

Well, my passions being what they are, I was never content to simply walk away from the concept of asteroid mining or MCS research.  A recent paper for graduate school at UND last semester assessed the validity of the “gold rush” metaphor commonly invoked by proponents of asteroid mining, and at my spaceflight consulting firm, we’ve been trying to find ways to fund more modern incarnations of MCS research.

Coming full circle to my back-of-the-envelope days, it looks to my eyes like the folks at Planetary Resources have finally found a way to identify and/or convince those venture capitalists who are willing accept the risk and take the plunge to go after an asteroid.  (In short, it looks like they beat me to it. *grin*)

The cost, as I mentioned earlier, will be truly astronomical.  However, the reward may be equally as great.

The good news?  The finding of my recent asteroid/Yukon comparison paper is that on the frontier, cooperative competition is necessary for survival, so it seems there is room enough for all.

The final analysis?  Perhaps with Planetary Resources breaking new ground in the resources market, others will be made aware of the tantalizing possibility that asteroid resource operations present and decide to jump in as well.

Maybe this is the start of the “21st-Century Gold Rush” many of us have been waiting for.

I can’t wait to see what these guys are all about.








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