Galileo To Commit Mechacide 52
taylor writes "The Sydney Morning Herald reports that the old explorer spacecraft Galileo will soon commit suicide after flying a final mission. The spacecraft has been orbiting Juptiter for seven years. Tomorrow, Galileo will pass Amalthea, a tiny moon of that planet, to gather information about the moon's gravitational pull on the spacecraft, and thus about its material makeup. Immediately thereafter, Galileo will move quickly through Jupiter's rings, exposing itself to 100 times the radiation a human could withstand. The spacecraft will likely not survive; it is already crippled from the large amounts of radiation it has encountered thus far. In any case, Galileo will then begin its final orbit of Jupiter, ending next September in a fatal crash into the planet's dense atmosphere. Read the full article
on SMH.com.au."
Alas (Score:1)
Re:Alas (Score:1)
.
(I have nothing against Aussies, it's just the Principle of the thing, you know?)
.
Stand forth and acknowledge (Score:5, Insightful)
They don't build 'em like they used to. RIP, Galileo.
Radiation? (Score:2)
Re:Radiation? (Score:2, Informative)
Radiation damages biological systems by smacking the DNA. It's the same sort of deal with a machine, little bits of it get whacked by some radiation. It's not quite as vulnerable since damage to one structure doesn't go on to replicate itself like cancer does in the biological world.
silicon or something like it (Score:2, Informative)
The semiconductors are doped by high-velocity, high-temperature particle bombardment. I imagine radiation could have a counterintuitively destructive effect.
Re:Radiation? (Score:5, Informative)
http://www-ssc.igpp.ucla.edu/personnel/russell/
"It also has the largest magnetic moment (computed as the product of the equatorial surface field and the cube of the planetary radius). Consequently it also has the largest magnetosphere in the solar system, large enough to encompass easily the Sun and the visible corona. If the Jovian magnetosphere were visible from Earth, it would be bigger than the Moon in the night sky. Jupiter is also a powerful emitter of radio waves. Its giant magnetosphere acts both as a trap and an accelerator of energetic charged particles. The most energetic of the trapped electrons radiate at radio frequencies, and it was the radio frequency radiation that led in 1955 to the discovery that Jupiter had a magnetic field (Burke and Franklin,1955). Jupiter's magnetosphere differs importantly from the Earth's magnetosphere in that its energy is predominantly derived from sources internal to the magnetosphere rather than through its interaction with the solar wind."
Here is a real-world illustration of a radiation effect on machines, take an external power supply from a Deskwriter series HP printer, set it next to a CRT monitor and watch the fun happen.
http://spaceflightnow.com/news/n0012/30galileor
"Exposure to Jupiter's intense radiation caused two effects -- an alarm received from Galileo's camera system, and a computer reset of the non-spinning portion of the spacecraft. The reset was a transient event that has happened during radiation exposures on several previous orbits. The computer reset was handled properly by onboard software responses, and mission engineers are investigating the out-of-the-ordinary measurement that triggered the camera alarm.
Other systems on Galileo were operating normally more than 12 hours after the closest approach to Jupiter.
"Adverse effects from the radiation close to Jupiter are not unexpected," said Jim Erickson, Galileo project manager at NASA's Jet Propulsion Laboratory, Pasadena, Calif. Galileo had already endured more than three times the cumulative radiation exposure it was designed to withstand, and has operated more than three years above and beyond its original two-year mission in orbit around Jupiter.
Galileo had flown within 2,337 kilometers (1,452 miles) of Jupiter's largest moon, Ganymede, and taken images of it several hours before the camera began indicating a possible problem. The camera and other scientific instruments onboard the orbiter are continuing to record data about Jupiter and its moons."
Radiation can be very damaging to machines. It can degrade the strength of metals, plastics and ceramics used in the construction of the spacecraft. It will damage electronics and can effect the ability of the batteries to take a charge.
It's hostile out there in space, and not just because of the cold/hot and lack of atmosphere.
mars viking lander:Radiation and Core memory (Score:4, Informative)
NASA was very worried about contaminating mars so the entire lander had to be autoclaved on earth. the high temperatures of the autoclave would destroy ordinary magnetic tape. and the core memoery was low power since it is non-volatile.
For you kids who dont know what "core" memory is (or why for example you get files called "core" dumps on your computer when a program crashes) gramps will explain. Core origiginally was a donut shaped peice of ferrite. Next imagine set of 100 parallel wires spaced 1cm appart. on top of this is laying another set of 100 parallel wires running at right angles to the first set. At every crossing point in this grid a small ferrite disk is threaded by these two wires. and voila random access memory. each core is a single bit. to program it you run a current equal to half the hysterisis level down one of the wires in the first set and an equivalent current down one of the second set of wires. Only one core, at the insterescion, gets the double dose of current that exceeds the hysterisis value. this flips the magnetic polarization of the donut. To read it out one simply monitors the inductance: if you flip the bit the voltage is higher than if you are not flipping it. turn off the power and the magnetic memory stays. It is impervious to cosmic rays. the donuts are called "cores". why these are called cores is a different topic
Core memory on the viking lander was a bit more sophisticated. the magnetic material was coated/evaporated directly onto the wires so the whole thing could be very dense.
Silicon memory was available back then but it was not deemed relaible in the face of unknown radiation levels, and thermal stress. It was a great sacrifice to have such a small amount of ram (core has low bit density compared to silicon). But it was the only way to solve the problems.
Re:mars viking lander:Radiation and Core memory (Score:2)
Re:Radiation? (Score:5, Informative)
There are several mechanisms.
Radiation neutralizes the stored charge in EPROMs. This is the same mechanism as erasing them with UV light. At one time people just didn't use them in space applications, but have now found that you can if you're careful, and don't leave them in space too long. Flash is still generally off-limits.
Radiation can alter the characteristics of semiconductor junctions.
Radiation can alter the characteristics of passive components.
And so on...
...laura
farewell (Score:4, Insightful)
Better, More Expensive, Slower (Score:5, Insightful)
Re:Better, More Expensive, Slower (Score:2)
(btw, No Casinni was approved way before MO was lost).
Re:Better, More Expensive, Slower (Score:1)
a bugg
Re:Better, More Expensive, Slower (Score:5, Insightful)
And everything that Enron or Worldcom does could have been done by a government organization with "very little corruption, inefficiency, and wasted resources." The two are simply different ways of doing things. Neither is really intrinsicly better than the other. In both cases, a decent method of oversight is needed.
It should be noted, however, that it is very unlikely that one could have convinced a private company to do what NASA is doing in terms of basic exploration -- especially basic exploration where the resulting knowledge is available to the public.
Yes we could have paid a public corporation to create a probe like Galileo, but that is essentially what NASA did. Much of what Nasa does is chose which company is going to be making the probes, the Shuttle, etc.
On the other hand, What private corporation with a sane mind would have seriously considered taking on what NASA has done? it's taken decades of ($Billions++ ) net-loss basic research and exploration to get us to the point where private corporations are taking a serious look at doing their own space research. Without NASA we would not have the basic technology and space knowledge needed for a company to seriously consider such an effort.
hurray! (Score:2)
No... (Score:1)
Re:No... (Score:2)
quite an odyssey (Score:1)
I don't think so dave. (Score:2, Funny)
NASA (Score:1)
Re:NASA (Score:1)
Re:NASA (Score:2)
Bah.. liars... they are just heeding the warning...
"All these worlds are yours -- except Europa. Attempt no landings there."
Many of you feel sorry for this spacecraft... (Score:2, Funny)
Re:Many of you feel sorry for this spacecraft... (Score:2)
IKEA's selling space probes now??
Are the instructions in English or metric?
Re:Many of you feel sorry for this spacecraft... (Score:2)
Really, would it matter [nasa.gov]?
Re:Many of you feel sorry for this spacecraft... (Score:1)
Sure, but it comes with a funny name, and you have to assemble it yourself with one of those little hex keys.
Re:Many of you feel sorry for this spacecraft... (Score:2)
It's called Pröba and the manual is on a 11x17 foldout diagram with pictures (no words) indicating how to hook it to a slingshot and send it off to space.
Versions of this product in green and orange (the only colors available) have been seen on some episodes of Trading Spaces
Almathea? (Score:1)
Re:Almathea? (Score:1)
Units people! (Score:3, Funny)
(whispers)
feet? What do you mean feet?
It would be nice... (Score:1)
Re:It would be nice... (Score:2)
We did get part of the Surveyor probe back; that was a robot moon lander. ISTR Alan Shepard brought bits of it home on Apollo 12. He was promptly disqualified for improving the lie of his ball, and thus his legendary golf shot never counted.
Bringing probes back from deep space is rarely an option - it's a matter of energy. Galileo is irrevocably trapped in the Jupiter system, and doesn't have the fuel to get out of that colossal gravity well; meanwhile Voyager is barreling out of the Solar System at a ridiculous speed, and hasn't a hope of turning round.
Perhaps we might have been able to bring Deep Space One [nasa.gov] home at the end of its planned mission, but instead it was decided to send it on a rendezvous course with a comet; a high-risk mission that paid off magnificently.
Burning up or freezing to death and returning data to the last has got to be a better fate for a probe than being grabbed by some astronaut and put in a museum...
Following its namesake. (Score:2, Informative)
I must point out that the idea that his blindness was due to observations of the Sun is a myth: he made the observations by projection, the way anyone with half a brain would. His blindness was actually due to glaucoma and cataracts at the age of 72. My source is Galileo's Daughter by Dava Sobel.
Finally the heretic will BURN (Score:1)
Galileo's ideas are just not in sync with the Catholic Church. The Earth is the center of it all.
Re:Finally the heretic will BURN (Score:1)
For shame.