Category Archives: Astronomy and Aerospace

Pushing Tin

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While browsing MetaFilter I ran into a really nice Air Traffic Control simulator called ATC-SIM. This is a web-based simulator that requires no download to use. It captures the basics of ATC work. The amateur controller must maintain 3 mile horizontal and 1000 ft vertical separation at all times as well as coordinate the timely arrival and departure of aircraft thorugh the terminal airspace.  The controller must coordinate inbound traffic onto an intercept of the ILS glideslope beacon for the active runway in order for the landing clearance to result in a landing.

The default airport is O’Hare. It doesn’t take long to get a glimpse of the challenges associated with that airspace.  Traffic piles in and out rapidly and every aircraft is in motion.

Another ATC related website is ATC Monitor. This is apparently a feed from Atlanta. It is possible to view Atlanta Center radar as well as TRACON.  It is well worth visiting.

Th’ Gaussling’s home town is ~ 8,000 ft beneath an airway leading to Denver Int’l Airport. While driving home at night I frequently see bright cones of airliner landing lights stabbing through the clouds aloft. These light projections have a faintly cometary appearance.

Aqueous Enceladus

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With the revelation that streams of water ejected from the Saturnian moon Enceladus may arise from subsurface liquid water, the space science crowd is abuzz with excitement about the possibility of life on this frosted novelty moon. It seems to me that if there is aqueous life under the surface of Enceladus, then some of it should have been blown ejected above the surface by these geysers. In fact, a few of the hapless critters may be lying about on the surface this very moment wearing an expression of shock and dismay on their frozen xenomorphic faces. How embarrassing for them.

The three cosmic damp spots- Earth, Europa, and Enceladus. I wonder how long it will take for a lander proposal to get serious evaluation? Life on Enceladus is as likely to resemble a microbial mat as anything.  A lander would have to consider microscopic examination of samples.

Link-O-Rama

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Interested in building an astronomical observatory in your hometown? Have a look at Observatory 101.  No pictures, but because I know the parties in the article, I can certify that there are excellent bits of advice for those keen on building a community observatory. Remember, square buildings are easier to construct than round buildings. It’s a rectilinear world.

What does it take to be in the upper few percentile in life? No, really. What does it take? See what Malcom Gladwell thinks about it. Plan to set aside 10,000 hours.

Tired of people incessantly humping your leg wanting this or that? Check out this USB accessory. If this is too much for your puritanical sensibilities, try the USB aroma therapy gadget and chill out. Check out ThinkGeek. Lots of cool stuff.

Are you torqued about the Lieberman situation? I know I am. So yell at somebody about it.

Quit whinin’ about yer pathetic cell phone coverage and get ta buildin’ yerself sumkinda antenna to boost the gal’ durn signal.

Blanchard sells gold coinage for those flush with cash.  Load up on Krugerrands.

Need the straight dope on radioisotopes? Check out the list of monograph at the link.

Danes … in Space!

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Copenhagen Suborbitals announced the the successful static test firing of their XLR-2 hybrid rocket motor on October 19th, 2008. The company states: “Our mission is very simple. We are working towards launching a human being into space.”

The rocket motor is comprised of a system that injects liquid oxygen into a solid epoxy core to generate combustion and thrust.  The victim astronaut assumes the position a semi-squatting position with their head in the clear plastic nose cone.  The passenger compartment is lifted into a parabolic trajectory topping the magic altitude of 100 km. I guess you get to call yourself an astronaut if you fly above 100 km.

( You see, the purpose of the rocket motor is to deliver the passenger to the scene of the disaster.)

I think I’ll pass my ticket to someone else this time.

Yves Rossi’s Flying Wing

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This is one of the better videos showing details of the technology. I wonder what the stall speed of this thing is. It would be interesting to see what airspeed or pitch attitude limitations he might have when he releases his ‘chute.

The fellows in the second video are experimenting with a different configuration. I suspect they will eventually rediscover the phenomenon of flutter if pitch divergence doesn’t get them first.

Scotty and Gordo Lost in Their Second Launch Disaster Together

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August 2, 2008. Kwajalein Atoll.  In the third failure in the fledgeling commercial SpaceX launch program, a Falcon 1 lifter failed to achieve orbit shortly after liftoff.  The payload package consisted of two NASA packages, one DoD package, and one package for Celestis, Inc. The Celestis payload consisted of ca 208 vials of the cremated remains of customers who paid to have their ashes delivered into orbit.

Among those disappointed customers were the late actor James Doohan (“Scotty” from Star Trek) and astronaut Gordon Cooper. Curiously, this was their second successive space disaster together.  The package of remains previously fell to earth and landed in the White Sands area in May of 2007 following an earlier failure of a launch vehicle.

Wende Doohan, James Doohan’s widow, told the Associated Press news agency her late husband “probably wished he could have stayed [in orbit]”.   -BBC

Internet mogul Elon Musk said, “It was obviously a big disappointment not to reach orbit”. Musk is a founder of SpaceX and PayPal.  According to SpaceX, the failure occured when a thrust transient during first stage shutdown caused it to recontact the second stage soon after separation. This contact perturbation caused the vehicle to fail to reach orbit.

“Laddy! Would ya be needin’ a little somethun’ to wash that doon with?” 

-Cmdr Montgomery Scott

Organic and Inorganic Carbon??

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Thanks to a friend in Grand Rapids, I was linked to a blog hosted by the NY Times called Tierneylab.com.  The writer of the post was sounding off about a pet peeve relating to the use of the term “Organic”.  It seems that there is some confusion as to the use of the adjective organic in relation to certain carbon-containing substances. Tempest in a teapot, you ask? Let the chemistry community decide.

The problem begins to show itself when astronomers and planetary scientists start describing carbon containing materials found in planetary exploration as organic.  Back on earth, the word organic is burdened with both common and scientific usage. So, when descriptions of organic materials found on other worlds begin to arise in discourse, the intent of the usage becomes unclear.

For instance, it could suggest to people that such discovered materials were put in place by some kind of life form. It could suggest to nondiscriminating audiences that the presence of carbon implies life, past, present, or future. Or it might well suggest to higher level audiences that biology-ready raw materials are in place.

The scientists working with the Phoenix Lander have an interesting analytical chore in front of them. Using a robotic platform on Mars, they want to distinguish the presence of organic vs inorganic carbon. What is meant by organic and inorganic is less than clear. But it seems that organic refers to something other than CO2 and carbonate.

In the relatively few journal articles I’ve seen relating to this, the authors are not always precise about the kinds of molecules they are referring to as organic. Irrespective of what is said in the articles, when this work gets to a public forum, the meaning behind the word organic becomes even less clear.   

The TierneyLab post does bring up an interesting question about what is necessary for a substance to be considered organic.  Do graphite, diamond, Buckyball, or soot forms of carbon qualify as organic? What about CO2, CS2, carbonates, CO, HCN, or calcium carbide? Does it make more sense to refer to organic and inorganic carbon, where inorganic carbon is defined as … well, what? 

Seriously, what would it be? CO2? Carbon dioxide is incorporated into glucose by plants and this seems quite organic.  Carbonate? This anion is used to balance our blood pH. Our own metabolic CO2 helps to provide carbonate. This product of metabolism should qualify as organic. CO? Well, Carbon monoxide undergoes Fischer-Tropsch reactions to produce aldehydes. This seems very organic as well. Perhaps the target is a substance with C-H bonds?

There is nothing inherently biological about the C-H bond. The Saturnian moon Titan is blanketed with a thick layer of CH4 (methane) and it seems unlikely that it is of biological origin. Indeed, hydrogen is the most abundant element in the universe and carbon the 4th. That hydrogen and carbon atoms could find each other to form trace methane in a proto solar system isn’t too much of a stretch.

Organic and Inorganic Carbon.  How about we just leave it all as organic? 

Here is what I think. It does matter if a scientist or writer is using language in an imprecise way. If writing or speech implies, for instance, that Mars is rich in life giving organic nutrients when in fact Martian organic matter is really carbonate and CO2, then I believe the language must be altered to reflect that condition. A writer should not leave an impression of past or incipient planetary fecundity when in fact the planet may be an inert ball of metal silicates dusted with a bit of carbonate when the 6 torr CO2 atmosphere kicks up a breeze.