Beagle 2 Failure Theories

Dan East writes "New Scientist has an article discussing the failure of ESA's Beagle 2 Lander. Theories as to why the landing failed include thinner than expected upper atmosphere, extreme atmospheric temperature fluctuations, and possible physical damage to Beagle 2 seen in an image acquired immediately after it separated from Mars Express. Recent data acquired by Mars Express, as well as NASA's Mars Rovers, are helping direct investigations into the failure. So far only around half of Beagle 2's landing ellipse has been imaged in an attempt to locate remnants of the lander. USA Today is also running an AP story on these latest theories."

Unrelated Question

[Bryan+Ischo]

My friends and I went to the NASA Ames Research Center Mars museum at Moffett Field yesterday and it was pretty cool, in a museum-for-kids kind of way. But there was one fact on display that I simply could not understand, and that the curator on duty could not help me with. I told my friend that I would ask Slashdot, where someone was sure to know, and was only joking, but now that this story has been posted (and although it's only loosely related), what the heck ...

The description of the rover module that is going to be deployed on one of the upcoming Mars missions states that it is designed to last for 3 months or until its solar panels become covered in Mars dust and it can no longer get the solar power that it needs. The question is, if they are going to send up a multi-multi-million dollar craft, why not put some simple wipers on the solar panels so that they can wipe off the dust and get some more use out of the thing?

The curator said that "five hundred people" before me had asked the same question, and that he had never been able to figure out the answer. And of course there MUST be a good reason for this; my closest guess is that the robot wouldn't last for more than 3 months anyway and so they don't bother to include the extra expense and complexity of a motorized wiper system just to keep its solar panels clean for longer than it is expected to live. But there must be a better reason than that, no?

Re:Conversions...

[Ateryx]

A factor of +/- 10 could be completely possible, however what about other more simple errors? I don't know much about what numbers go into blasting some metal from Earth, but logically what would happen if any of the assortment of numbers was even 1% off? Even with recalculations, who hasn't incorrectly answered an "easy" math problem on a test to realize they made a stupid mistake even after going through the problem a second time before turning in the test?

Lets say (using the parents example) the radius of Mars was incorrectly entered (from our less accurate 1988 data vs. our more exact 2001 data) with an error of 1%, so instead of 3375km for polar radius, we have 3341km. This error is furthered in say Newtons Law of Gravity, because the radius is squared, giving a 2% error in just the denomenator of the equation. Obviously there are some margins to counter this, but Distance to Mars, Radius of Mars, Mass of Mars, all equal to many sig figs.

If you're interested in more Mars/Earth info I found this NASA data in my googling.

Rip off strips?

[Chuck+Chunder]

Similar to what grand prix drivers have on their visors? If an existing appendage on the rover could hook up with a tag and pull such a layer of film off a panel then that could double the solar panels lifetime with little extra weight or complexity?

Re:Conversions...

[Dun+Malg]

So this leaves us with simple human error. Something as simple as a single line of code can destroy an entire project (programmers know what I'm talking about).

It could have even been some sort of physical hardware error. My father used to work for Hughes Aircraft Co. on the AIM-54 Phoenix missile program. The Navy required them to second-source some parts for the missile and named Raytheon as the source. Raytheon was (and still is) known for numerous incidents of stunning ineptitude, and this case was no exception. One of the parts was an arc-shaped metal lever with gear teeth along its edge that acted as a safety for the missile rocket motor to make sure it wouldn't fire until it dropped free from the F-14 firing it. An electric motor would spin a gear meshed with the teeth and, when it got to the end of the arc, the lever would spring free from the gear and ignite the rocket motor. Some Raytheon engineer apparently couldn't read a mechanical drawing and put one too many gear teeth on the arc. When the motor spun the requisite number of times, it would stop with the last tooth of the Raytheon made safety lever still engaged and the rocket motor wouldn't ignite. They only found the problem months later during a live-fire test at China Lake, CA, when an F-14 was firing at an F-86 drone. The missile dropped like a half-million dollar glide bomb. They were pretty pissed at Raytheon over that one. So you never know what's going to monkey-wrench things. Bad metric:standard conversions, one too many gear teeth, a bad diode that worked only long enough to escape detection; There are so many things that can go wrong.

Re:Has the atmosphere DRASTICALLY changed in 20 yr

[way2trivial]

Well let's see, the link I gave says (from viking)

Surface pressure: 6.36 mb at mean radius (variable from 4.0 to 8.7 mb depending on season)
[6.9 mb to 9 mb (Viking 1 Lander site)]
Surface density: ~0.020 kg/m3
Scale height: 11.1 km
Total mass of atmosphere: ~2.5 x 1016 kg
Average temperature: ~210 K (-63 C)
Diurnal temperature range: 184 K to 242 K (-89 to -31 C) (Viking 1 Lander site)
Wind speeds: 2-7 m/s (summer), 5-10 m/s (fall), 17-30 m/s (dust storm) (Viking Lander sites)
Mean molecular weight: 43.34 g/mole
Atmospheric composition (by volume):
Major : Carbon Dioxide (CO2) - 95.32% ; Nitrogen (N2) - 2.7%
Argon (Ar) - 1.6%; Oxygen (O2) - 0.13%; Carbon Monoxide (CO) - 0.08%
Minor (ppm): Water (H2O) - 210; Nitrogen Oxide (NO) - 100; Neon (Ne) - 2.5;
Hydrogen-Deuterium-Oxygen (HDO) - 0.85; Krypton (Kr) - 0.3;
Xenon (Xe) - 0.08

now- from pathfinder Meteorology
It was mid-summer in the northern hemisphere of Mars when Pathfinder landed. The Pathfinder Lander is at 19.33 N, 33.55 W. The Viking 1 Lander touched down at 22 N, 50 W, 2 km below datum elevation on 20 July 1976, and is used for many of the comparisons below.
The pressures measured over the first three days average about 6.75 mb, 10% to 20% smaller than those recorded by the Viking 1 Lander during the same season 21 years ago (note that this result is consistent with the elevation difference of about 100 meters between the Mars Pathfinder and Viking 1 landing sites). The pressure showed a slight decline over the first few weeks but is now starting to rise slowly. This rise should continue through December, 1997. The pressure rise is concurrent with the slow shrinking of the southern polar cap, now at its maximum extent, as the southern winter ends.

Temperatures measured from the top of the 1 meter mast on Mars Pathfinder varied from daily highs of about 260 K (+8 F) to lows of 196 K (-107 F). This is about 10 K degrees (18 F degrees) warmer than Viking 1 Lander measurements made at 1.6 meters. The sol-to-sol temperatures have been very repeatable over the first 30 sols, and should continue until about 60 sols after landing, after which they will start to show more variation.

Preliminary wind speed estimates give late evening and early morning prevailing winds from the SSE, which shifted in the early afternoon to be from the N to NE. This is very similar to what Viking 1 found at this time of year. During the day, winds were light at only a few km or miles per hour. At night the wind speed increased to about 10 to 20 mph (16 - 32 kph) from the south.

The repeatable weather patterns of northern summer found by Viking 1 have been verified by Pathfinder so far. These include diurnal (day-night) pressure changes and semi-diurnal changes by as much as 4.5% due to atmospheric thermal tides.

Interruptions in the normal pattern of temperature drops observed on a few nights may indicate water in the atmosphere is condensing as fog. Humidity measurements are planned later in the mission.

On sol 25, temperature sampling was done at 4-second intervals for the whole day. Temperature fluctuations by 15 to 20 K (30 to 40 degrees F) were observed over minutes or seconds at some periods, suggesting turbulent boundary-layer mixing between the warmer near-surface region and cooler layers above that. A "dust devil" was also detected passing by the lander on sol 25, and later high resolution sampling has detected more dust devil signatures.

More detailed information and historical weather reports are available at the Mars Pathfinder project weather page. Raw and reduced data are available online at http://atmos.nmsu.edu/PDS/data/mpam_0001/aareadme. htm

Pathfinder used a parachute... didn't anyon notice how hard it hit? the fact that pressure and temperatures change so mu

Hey! mars dust is largely magnetic....

[way2trivial]

why not stick a magnet to the bottom of the solar panels?
Both rovers carry magnets supplied by Denmark for experiments to analyze martian dust. Dust covers much of Mars' surface and hangs in the atmosphere, occasionally rising into giant dust storms. One of the magnets is designed to exclude any magnetic dust particles from landing in the center of a target area. During Spirit's time on Mars, dust has accumulated on other parts of the target while the center has remained "probably the cleanest area anywhere on the surface of the rover," said Dr. Morten Madsen, science team member from the Center for Planetary Science, Copenhagen, Denmark.

"Most, if not all of the dust particles in the martian atmosphere are magnetic," Madsen said. Another of the magnets is within reach of the rover's robotic arm. Examination of dust on the target by instruments on the end of the arm will soon yield further information about the composition of the dust, he said.