Parker Solar Probe, Take the Solar Plunge |
Parker Solar Probe, Take the Solar Plunge |
Dec 25 2005, 12:33 AM
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Senior Member Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 |
Any serious plans to send a probe into the Sun to explore its depths as far as possible?
What would help a probe last as long as it could and how deep could it get? Could it even radio or laser out any data? What about a Sun skimmer? -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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Dec 25 2005, 02:07 AM
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Merciless Robot Group: Admin Posts: 8784 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
I don't know, but my best guess would be <poof!!!> before any such probe even got close to the photosphere, so I doubt that any useful data could be gathered even if it could somehow be transmitted through all that RF noise... (need shades just to think about it!!!)
-------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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Dec 25 2005, 06:15 AM
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Senior Member Group: Members Posts: 2530 Joined: 20-April 05 Member No.: 321 |
Solar Probe was supposed to come within 3 solar radii.
I suppose an elaborately shaded craft could get pretty close. A "ball" with instruments could be surrounded with a hemispherical shade with near 100% reflectance held by struts rather far from the craft. Perhaps even a hierarchical tier of such shades could perform even better. Entering the photosphere would instantly annihilate any craft. The velocity of the craft as it hit the outer layers of gas, which would increase rapidly in pressure with depth, would be colossal -- even aside from the radiative heat. |
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Dec 25 2005, 07:46 AM
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Senior Member Group: Members Posts: 3419 Joined: 9-February 04 From: Minneapolis, MN, USA Member No.: 15 |
Well, there's always David Brin's solution. Use a laser to *refrigerate* the probe, and to provide braking thrust against the Sun's gravity.
The idea is to drain the thermal energy into a system that powers a very powerful, very HOT laser. This would be the *only* way to use a "radiator" to shed heat into the photosphere. A side benefit would be that such a laser would exert *significant* thrust, and it would be aimed at a target that it couldn't much hurt -- the Sun's surface. The catch, of course, is that we really don't have the technology to build such a hot laser, or to convert the heat we can't reflect away into power for the laser. Once we develop those technologies (if we ever do), then a solar probe is more feasible... -the other Doug -------------------- “The trouble ain't that there is too many fools, but that the lightning ain't distributed right.” -Mark Twain
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Guest_Richard Trigaux_* |
Dec 25 2005, 08:24 AM
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QUOTE (JRehling @ Dec 25 2005, 06:15 AM) Solar Probe was supposed to come within 3 solar radii. I suppose an elaborately shaded craft could get pretty close. A "ball" with instruments could be surrounded with a hemispherical shade with near 100% reflectance held by struts rather far from the craft. Perhaps even a hierarchical tier of such shades could perform even better. Entering the photosphere would instantly annihilate any craft. The velocity of the craft as it hit the outer layers of gas, which would increase rapidly in pressure with depth, would be colossal -- even aside from the radiative heat. Yes, if we imagine a shield, the shape of a ... shield, which shadow comes up on the probe itself, in such a way that it just eclips the Sun and, seen from the probe, appears like a disk just a bit larger than the Sun (like the Moon just eclips the Sun seen from Earth) then this shield gets very hot, indeed, but, seen from the probe, it appears as a circle just a bit larger than the Sun but not so hot. The reason is that it absorbs Sun heat from one side, but it radiates its own heat on both sides. So it can provide an efficient shadowing. And a tiered structure of such shields can really efficiently cut down the heat received by the probe itself in one or two orders of magnitude. So we can get much closer from the Sun than with any other design. The limitation is the first shield (the shield size quickly increases with the number of tiers) which must be made of very high fusion point material and be polished so what it reflects as much heat as possible without aborbing it. The only solution I see would be a very thin veil of tungsteen, polished in front and blackened with graphite at the rear. The second, third etc. tiers would be conical in shape, to increase side radiation. Such a design would allow to get very close from the Sun, much closer than Mercury, and, if we give the shield a slightly parabolic shape, it can also be used as a high gain antenna, and contribute to overcome the very poor signal/noise ratio. Getting closer? The capture speed near the Sun is more than 600km/s, and this figure alone is detering: even if a probe manages to cope with the radiated heat, as soon as it will enter the corona it will drag and burn. Remember: the coldest place on the Sun is 4000°C (in spots) where tungsteen and graphite cannot bear much more than 3000°C. So, unless there is some very new and unexpected discovery in physics, we are bound to contemplate the Sun from afar. The laser to cool the probe? Whatever its technology, a laser produces waste heat. And, unless we find a way to get around the second principe of thermodynamics, we cannot use it to cool anything. The only way to cool a probe would be to bring a lot of water, and make it boil to regrigerate the probe for a short time, before it gets too hot. Even one hour gained at 600km/s would allow to gain two Sun radii. But, very close from the Sun, the heat is enough to boil a full swimming pool of water in some seconds... |
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Guest_Richard Trigaux_* |
Dec 25 2005, 08:36 AM
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Other ways to probe the Sun would be sending a laser ray or radio beam. Unfortunately, the Sun is opaque to both. At best we can imagine passing very close to the surface (from a probe to the Earth). We can imagine to send very low radio frequencies, but I am afraid that the time constants involved would be thousands of years. (Already on Earth probing the core with radio waves would require frequencies too low to be actualy useable).
Impossible, impossible, impossible... So why not the most impossible of all: SUN SAMPLE RETURN MISSION!!!! Ouah nutter and nutter!! But paradoxically it is the simplest to do, and it was even already done, with this probe, I did not remember the name, perhaps Stardust, which went in space to capture solar wind dust, and then crashed at time of return on Earth, but all the same produed useable samples of Sun composition. But they took no measure against contamination of Earth by Sun life form... |
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Dec 25 2005, 08:38 AM
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Merciless Robot Group: Admin Posts: 8784 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
The only "practical" solution I can see would be to embed a probe and several layers of redundant sensors at the dead center of a rather large comet nucleus or maybe one of Saturn's smaller icy moons and deorbit the whole thing right into the Sun using a lot of ion thrusters or perhaps mass drivers, if there was enough metallic material available to use as reaction mass...
I doubt that the value of data retrieved would ever equal the investment, though, even if all the assumed supporting technologies were ever available. Remote sensing is far better in all respects! -------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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Dec 25 2005, 12:22 PM
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Member Group: Members Posts: 249 Joined: 11-June 05 From: Finland (62°14′N 25°44′E) Member No.: 408 |
QUOTE (Richard Trigaux @ Dec 25 2005, 11:36 AM) But paradoxically it is the simplest to do, and it was even already done, with this probe, I did not remember the name, perhaps Stardust, which went in space to capture solar wind dust, and then crashed at time of return on Earth, but all the same produed useable samples of Sun composition. The Genesis mission... It was to be captured from mid-air, because a parachute landing would have been too hard. -------------------- The universe is not only stranger than we imagine, it is stranger than we can imagine.
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Guest_Richard Trigaux_* |
Dec 25 2005, 04:02 PM
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Dec 25 2005, 04:37 PM
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Member Group: Members Posts: 688 Joined: 20-April 05 From: Sweden Member No.: 273 |
A lot of neutrinos from the interior of the Sun is passing through Earth all the time, so all we need to see into the Sun is a good neutrino telescope.
tty |
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Guest_Richard Trigaux_* |
Dec 25 2005, 05:57 PM
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QUOTE (tty @ Dec 25 2005, 04:37 PM) A lot of neutrinos from the interior of the Sun is passing through Earth all the time, so all we need to see into the Sun is a good neutrino telescope. tty We don't have a "good neutrino telescope". But what we have already learned much about the inner Sun. And about the neutrinos... I am sorry, I usually have plenty of ideas to do things most people think impossible, but about plunging INTO the Sun, I don't have! |
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Guest_BruceMoomaw_* |
Dec 25 2005, 11:23 PM
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Richard Trigaux, alas, is too optimistic about the Genesis scientists being able to retrieve "most" of their planned data. The latest news is that they will indeed be able to properly measure the amount of noble gases in the Sun, since those (except for argon-40, which is irrelevant) exist only in microscopic amounts in Earth's atmosphere and water, and so weren't affected by the crash's contamination. But that was only their third scientific priority -- the top ones were to measure the isotopic ratios of the Sun's oxygen and nitrogen (especially the former), and unfortunately those have been very badly contaminated indeed. It's questionable whether they'll be able to retrieve any meaningful results on those.
As for Solar Probe -- whose design has been modestly changed lately, without harming its total science output -- see the very informative official Web page at http://solarprobe.gsfc.nasa.gov/ . Solar scientists would absolutely love to fly this mission, but it will cost as much as a New Frontiers mission and so NASA has yet even to officially propose it. (It's even been suggested that it should be included in the New Frontiers program. But that, in turn raises the question of whether ALL competitive-proposal programs for space science -- Solar System, Mars, astronomy, magnetospheric science or what have you -- that are in the same cost range should be folded up together into a single competitive space-science proposal program, which might well make sense.) There is no doubt at all, however, that we can make Solar Probe work -- amazingly, we already have almost all the technology we need for it. Extensive ground tests of that dunce-cap shaped carbon heat shield show that not only does it provide full protection against the heat, but it vaporizes considerably less than expected and so won't contaminate the probe's plasma measurements. The only thing that requires any additional work at this point is the design for the "plasma periscope" that would peep around the edge of the heat shield and divert a small amount of the outflowing solar plasma to the analyzers behind the shield. |
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Guest_Richard Trigaux_* |
Dec 26 2005, 09:27 AM
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QUOTE (BruceMoomaw @ Dec 25 2005, 11:23 PM) Richard Trigaux, alas, is too optimistic about the Genesis scientists being able to retrieve "most" of their planned data. The latest news is that they will indeed be able to properly measure the amount of noble gases in the Sun, since those (except for argon-40, which is irrelevant) exist only in microscopic amounts in Earth's atmosphere and water, and so weren't affected by the crash's contamination. But that was only their third scientific priority -- the top ones were to measure the isotopic ratios of the Sun's oxygen and nitrogen (especially the former), and unfortunately those have been very badly contaminated indeed. It's questionable whether they'll be able to retrieve any meaningful results on those. The team first came with an optimistic statement, pity of it did not worked. There was many expectations about this experiment. QUOTE (BruceMoomaw @ Dec 25 2005, 11:23 PM) As for Solar Probe -- whose design has been modestly changed lately, without harming its total science output -- see the very informative official Web page at http://solarprobe.gsfc.nasa.gov/ . Solar scientists would absolutely love to fly this mission, but it will cost as much as a New Frontiers mission and so NASA has yet even to officially propose it. (It's even been suggested that it should be included in the New Frontiers program. But that, in turn raises the question of whether ALL competitive-proposal programs for space science -- Solar System, Mars, astronomy, magnetospheric science or what have you -- that are in the same cost range should be folded up together into a single competitive space-science proposal program, which might well make sense.) There is no doubt at all, however, that we can make Solar Probe work -- amazingly, we already have almost all the technology we need for it. Extensive ground tests of that dunce-cap shaped carbon heat shield show that not only does it provide full protection against the heat, but it vaporizes considerably less than expected and so won't contaminate the probe's plasma measurements. The only thing that requires any additional work at this point is the design for the "plasma periscope" that would peep around the edge of the heat shield and divert a small amount of the outflowing solar plasma to the analyzers behind the shield. So there is REALLY such a project? Woww. Thank you for the link, Bruce, it is very interesting. I hope such a mission will fly one day. Of course at only 4 sun radii of the surface of the sun, it will be unmanned. Not yet any Bush plan for Sun colonization? And for the great dive INTO the Sun, we shall see a bit later. |
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Dec 26 2005, 11:12 AM
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Senior Member Group: Members Posts: 1870 Joined: 20-February 05 Member No.: 174 |
Unfortunately, the Solar Probe mission, or whatever it's name of the year is... has seemed to always be 10 years in the future. Rather like "Main Belt Multi Asteroid Rendezvous", which has been repeat-studied and repeat-proposed since the early 70's. If <whimper> Dawn flies, we'll finally get that one.
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Dec 26 2005, 06:03 PM
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Senior Member Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 |
QUOTE (Richard Trigaux @ Dec 26 2005, 04:27 AM) The team first came with an optimistic statement, pity of it did not worked. There was many expectations about this experiment. So there is REALLY such a project? Woww. Thank you for the link, Bruce, it is very interesting. I hope such a mission will fly one day. Of course at only 4 sun radii of the surface of the sun, it will be unmanned. Not yet any Bush plan for Sun colonization? And for the great dive INTO the Sun, we shall see a bit later. Maybe if we tell Bush there's a lot of oil on the Sun.... -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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Guest_Richard Trigaux_* |
Dec 26 2005, 08:52 PM
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Dec 27 2005, 01:50 AM
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Member Group: Members Posts: 235 Joined: 2-August 05 Member No.: 451 |
It would be possible to create a probe that could reach the photosphere, and continue into the body of the Sun a short way. There is a lot of question as to how it might communicate out of the Sun. Communication might be possible with x-ray lasers. Anything with a lower photon energy might get absorbed pretty quickly by the plasma.
This is not a realistic plan for the short term future, but you can imagine a craft that has a mass of billions of tons, and has a mechanism for spraying an opaque cloud out in front of it to shield the vessel with disposable shielding. Alternatively, or in addition, you might have a conveyer belt of rigid shielding that only exposes the individual tiles to the Sun for a small fraction of the time. Excess heat is blown off in the opaque jets previously described, or used to heat gases to thrust out the back. The Photosphere's density is very low. It would take quite a while for a billion ton object to be vaporized if it was well designed. Just as a wild guess, such a craft could potentially descend a thousand miles. |
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Dec 27 2005, 06:25 AM
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Senior Member Group: Members Posts: 3419 Joined: 9-February 04 From: Minneapolis, MN, USA Member No.: 15 |
QUOTE (Richard Trigaux @ Dec 26 2005, 02:52 PM) Absolutely. After all, fossil fuels are nothing more than storage units for solar energy. -the other Doug -------------------- “The trouble ain't that there is too many fools, but that the lightning ain't distributed right.” -Mark Twain
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Guest_BruceMoomaw_* |
Dec 27 2005, 08:36 AM
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The trouble is that we haven't as yet come up with a way to collect and store it that's even remotely as efficient as utilizing -- at breakneck pace -- the fossil fuels that Mother Nature thoughtfully spent hundreds of millions of years accumulating for us. Talk about spendthrift heirs!
As for solar astronomy missions -- including Solar Probe -- they may have genuine practical importance. We need to know more about the Sun's longer-term activity cycles, in order to judge what effects those will have on Earth's climate that will be overlaid on top of the effects from the buildup of man-made greenhouse gases. And, yep, the idea of Solar Probe has been around for a long, long time. Back in the early 1980s it was a big hulking thing called Starprobe that weighed thousands of kg and would have had to be launched by a Titan. Then, in the early 1990s, someone developed a way of greatly shrinking it by shaping the heat shield in such a way that it doubled as the probe's high-gain antenna. Still later, however, it became clear that electronic miniaturization has advanced to the point that we don't need that peculiar idea to build a lightweight version of Solar Probe. As with ion drives, We Have The Technology, and the only thing stopping us from doing it is the cost. And Congress itself has repeatedly expressed some interest in this mission, and at least twice has inserted an additional $10 million into NASA's budget -- which NASA hadn't asked for -- for design studies. At some point, it WILL fly. (The analogy that comes to mind is SIRTF, which got delayed repeatedly, but in the process underwent technological evolution that both drastically reduced its cost AND increased its science output. And finally, it did fly, as the extremely successful Spitzer Space Telescope.) One of the more mind-boggling things about this mission, by the way, is that one of its goals is to take images of the solar corona -- from inside the corona, looking out. |
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Dec 28 2005, 07:26 AM
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Newbie Group: Members Posts: 2 Joined: 28-September 05 Member No.: 513 |
Well, if one gets to think into the really long-range future (think decades), then a Solar Sample Return mission from the corona (or even the photosphere, if you want to get REALLY fanciful) might finally find a use for Bussard's beautiful yet cosmically inefficient ramjet.
Use electromagnetic fields to collect hydrogen from the corona to fuel a fusion rocket, in order to collect samples and fly back to Earth. It'd be a project of stunning magnitude-thousands of tonnes, probably-but what's a few billion to a thought experiment? |
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Dec 28 2005, 11:53 AM
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Member Group: Members Posts: 688 Joined: 20-April 05 From: Sweden Member No.: 273 |
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Dec 28 2005, 12:05 PM
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
(Sigh)
You're all missing the obvious way to design a Solar Probe, although ISA already described a most persuasive mission scenario. Just build one and launch it at night! (Ducks and runs!) Bob Shaw -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Dec 28 2005, 12:08 PM
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
QUOTE (Bob Shaw @ Dec 28 2005, 01:05 PM) (Sigh) You're all missing the obvious way to design a Solar Probe, although ISA already described a most persuasive mission scenario. Just build one and launch it at night! (Ducks and runs!) Bob Shaw Sorry, I forgot - ISA is the Irish Space Agency. Actually, they were going to send three spacecraft originally, with two levels of redundancy. To be sure, to be sure! (Ducks, runs, and hides up a tree) Bob Shaw -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Dec 28 2005, 12:30 PM
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Senior Member Group: Members Posts: 1870 Joined: 20-February 05 Member No.: 174 |
A limitless, though relatively small, source of energy is the mouth-flapping of "zero-point energy" and the like folks. Considerably more abundant is the hot-air from politicians and we-know-what's-best-for-you advocates.
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Dec 29 2005, 05:05 AM
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Junior Member Group: Members Posts: 89 Joined: 27-August 05 From: Eccentric Mars orbit Member No.: 477 |
I recall a sci fi story from long ago about a manned station and manned boats on the surface of the sun. The three main obstacles to operating on the surface of the sun are:
1) intense heat 2) no solid surface 3) 32G surface gravity The solutions are as follows 1) Carry a large supply of carbon, and pump it out of the surface of your platform. The carbon vaporizes and carries off the heat. Use carbon since it has the highest known melting and vaporization temperature of any substance. It acts like an ablative heat shield, or as the story described it, the bottom layer of a water drop in a hot pan. 2) Carry a big particle accelerator torus, and put a bunch of plasma in it and run it around the right direction such that it generates a magnetic field counter to the sun's magnetic field. If it is strong enough and controlled well enough, it will support the platform 3) Put this torus on the roof of the platform. Run the torus fast enough that through special relativity it gains enough mass to generate a 31G field in the up direction. In the story, the mission of the platform and boats was to induce precisely controlled solar flares which would impact the atmosphere of the Earth, and in this manner they could control the weather. There was a vast representative democracy back on Earth, the Weather Congress, to decide what weather to have. There was a vast scientific institue, the Weather Advisors, to figure out how to implement the decisions of the Weather Congress. And there was the Weather Service, manning the base and boats on the sun, to carry out the plans of the Weather Advisors. Now I know that there are dozens of reasons why the solutions proposed could not work (Where does all the carbon come from? What is the power source? What about tides from the gravity generator? Can you really use a plasma torus like that? The photosphere is hundreds of miles thick. Solar flares can't really influence Earth's weather that much. Even an enormous nuke is a mere sparkler on the sun, flares can't be induced.) but it is still interesting that someone actually considered a solution for landing on the sun which doesn't involve landing at night. |
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Guest_Richard Trigaux_* |
Dec 29 2005, 08:20 AM
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QUOTE (edstrick @ Dec 28 2005, 12:30 PM) Considerably more abundant is the hot-air from politicians and we-know-what's-best-for-you advocates. perhaps it is this which creates climate change. We could eventually find a linear relationship between the temperature increase and the number of forgotten promises by politicians. |
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Guest_BruceMoomaw_* |
Dec 29 2005, 11:37 AM
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That story was Theodore Taylor's "The Weather Man". Interesting idea, but even at age 12 it struck me as being a wee bit implausible. (He later wrote a sequel involving a suicidal trip to the CENTER of the Sun to stop an instability therein.)
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Guest_Richard Trigaux_* |
Dec 29 2005, 02:56 PM
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PINK FLOYD
SET THE CONTROL FOR THE HEART OF THE SUN |
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Guest_BruceMoomaw_* |
Dec 29 2005, 04:38 PM
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So THAT'S how they got so pink.
By the way, Solar Probe originally started out as one of that very unlikely trinity of missions that were set up under Goldin's tenure to supposedly develop the new technologies necessary to go to "the most difficult destinations in the Solar System" -- along with Europa Orbiter and the Pluto flyby. This program was commonly called "Fire & Ice", but had the awkward official name of "Outer Planets/Solar Probe". (Back in 1999 I wrote to Chris Chyba suggesting that it needed a better name, and proposing -- roll of drums -- "New Frontier". He was noncommittal. Alan Stern later told me that he'd considered that name for New Horizons, but decided that the JFK reference might make Bush even more hostile to the probe than he then was -- only to have O'Keefe later give that name to the entire middle-price planetary-probe program.) Anyway, the idea -- which in retrospect seems utterly cockamamie -- was to connect these three utterly different missions by using the same "core spacecraft" for each of them. Goldin then decided to make things even worse by overriding the recommendation of COMPLEX that the Pluto probe -- which, unlike the other two, actually required NO new technology -- fly first in 2003; he ordered instead that Europa Orbiter be flown before the Pluto mission. The result, naturally, was to delay the Pluto mission further and further as the impracticality of doing Europa Orbiter any time in the near future became obvious -- but I was told at the October 2000 meeting of the Solar System Exploration Subcommittee that Goldin told an aide that he had actually done this (along with insisting on totally impractical super-miniaturization of the Pluto probe) as a subterfuge for getting rid of the Pluto mission altogether, on the grounds that "Nobody gives a damn about Pluto." This is where, to my lasting amazement, I enter the story. I did an August 2000 piece for "SpaceDaily" proposing that not only did the Pluto mission not require any new technologies at all (unlike the other parts of OP/SP), but that it could be flown much more cheaply by simply mildly modifying the design of either of the two existing Discovery comet probes, Stardust and CONTOUR. A month later, NASA surprised everyone by suddenly putting out an AO for ideas for a cheap Pluto probe design -- which they made very clear they were doing extremely grudgingly, and with no desire to really fly the thing. When I got to the SSES meeting in October, there were stacks of my article on the information table; and on the first day two guys from Lockheed Martin got up and presented the company's proposal for modifying "Stardust" for the Pluto mission -- which reflected my own suggestions down to the very last goddamn detail, except that the launch would not be possible before December 2004 and so required a bigger booster than my suggested November 2003 launch. They told me later that Lockmart had come up with the idea completely independently, which I believe -- it had not exactly been a hard idea for me to come up with. But, to my stupefaction, although I had come to that meeting just as a reporter, I discovered that in the process of asking the assembled scientists for information on various subjects I was also GIVING them some information, and so Michael Drake ended up letting me take a bigger role in the debate over Pluto than he was legally supposed to do. While there was universal agreement that the argument for a near-future Pluto/Kuiper flyby was overwhelmingly strong, on the last day there was a debate over whether they might "anger NASA" by recommending it, and I ended up giving them a mini-Agincourt speech to the effect that their official job was simply to recommend the best scientific strategy for flying planetary missions, that the Pluto mission was clearly part of this, and that if NASA turned it down anyway for non-scientific reasons the agency had no reason to blame them for recommending it. Whether this made a difference or not, they DID very strongly advocate the mission in their report, and the scientific pressure for it simply got stronger and stronger, until we finally had the spectacle -- almost unprecedented at the time -- of the GOP Congress telling not only NASA but the White House itself to go a kite, and ordering inclusion of money for the mission in the NASA budget. (The 2002 Decadal Survey report forcefully recommending it was probably the last impetus necessary for this.) I'm still trying to determine just how important my role in all this actually was; but it seems certain that Simon Mansfield (the editor of "SpaceDaily) and I had SOME effect. I later learned that NASA was actually shutting up any engineer or scientist from publicly proposing an economically designed Pluto mission by threatening to cut off their grants, and so Simon and I ended up innocently belling the cat by publicly proposing the idea for the very first time and thus making it impossible for NASA to hush up the idea any longer. This may or may not have been what forced it to put out that reluctant AO for ideas on just this subject a month later; but judging from my treatment at that SSES meeting a month after that, my article played at least some contributing role in getting NASA's planned cancellation of any Pluto flyby mission reversed. New Horizons, of course, IS based on CONTOUR -- although much more loosely than its competitor "POSSI" was based on Stardust -- but I can't believe that I inspired that idea; there were surely engineers already thinking about it. But -- because, by pure dumb chance, Simon and I happened to be in exactly the right place at the right time -- I did play a role in getting it flown. I take for granted that I will never get the chance to do anything remotely as important for the rest of my life. (Not that I've quite given up the hope that someday lightning might strike twice -- although my recent plan to push a penetrator as a small piggyback lander for Europa Orbiter turned out to have a subtle but very important flaw in it pointed out at the recent COMPLEX meeting. Oh, well. Back to the drawing board.) Anyway, in retrospect it's perfectly obvious that Europa Orbiter was the most complex of the three OP/SP missions and should therefore have been flown last, with the Pluto flyby going first and Solar Probe second. Thanks entirely to Crazy Dan Goldin, this didn't happen -- or we could have seen the Pluto mission launched, with considerably lower cost and more science return, in November 2003 (which would even have allowed it to do a very close Io flyby en route!) And Solar Probe is STILL a very important mission -- in terms of practical human benefit, maybe the most important of the three -- and badly needs to be flown. |
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Dec 29 2005, 04:45 PM
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
Bruce:
Careful there Ted, or Crazy Dan might try to pull strings to have you nominated as the command pilot of a (briefly) manned Solar mission! Of course, he'd stand every chance of getting the second seat reservation for himself... ...I wonder who'd get the third slot? Bob Shaw -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Guest_Richard Trigaux_* |
Dec 29 2005, 05:53 PM
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#31
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QUOTE (BruceMoomaw @ Dec 29 2005, 04:38 PM) ...I later learned that NASA was actually shutting up any engineer or scientist from publicly proposing an economically designed Pluto mission by threatening to cut off their grants... I hate this way to shut down any debate or new idea. There was another example about the technician who tried to warn about the hole into the shuttle heat shield... He was not heeded, with the result we know. Worse, in place of recognizing their mistake, the responsibles humiliated him in asking him to retract his view in public. Ideas come at no cost, and they can make huge savings. So it is really a shame not to examine a given idea. And it is definitively not a shame if we are not the author of a good idea. |
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Dec 29 2005, 06:29 PM
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#32
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Senior Member Group: Members Posts: 1281 Joined: 18-December 04 From: San Diego, CA Member No.: 124 |
QUOTE (Bob Shaw @ Dec 29 2005, 08:45 AM) Bruce: Careful there Ted, or Crazy Dan might try to pull strings to have you nominated as the command pilot of a (briefly) manned Solar mission! Of course, he'd stand every chance of getting the second seat reservation for himself... ...I wonder who'd get the third slot? Bob Shaw Perhaps Hotblack Desiato? -------------------- Lyford Rome
"Zis is not nuts, zis is super-nuts!" Mathematician Richard Courant on viewing an Orion test |
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Dec 29 2005, 06:38 PM
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#33
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Member Group: Members Posts: 688 Joined: 20-April 05 From: Sweden Member No.: 273 |
QUOTE (kwan3217 @ Dec 29 2005, 07:05 AM) 1) Carry a large supply of carbon, and pump it out of the surface of your platform. The carbon vaporizes and carries off the heat. Use carbon since it has the highest known melting and vaporization temperature of any substance. It acts like an ablative heat shield, or as the story described it, the bottom layer of a water drop in a hot pan. I wonder if the use of coal to absorb the heat has something to with an idea Freeman Dyson came up with when he was working on the Orion nuclear propulsion project. The problem was how to test the concept without breaking the test ban since the test needed to be done in vacuum. Dyson’s idea was to do the test indoors in a very large vacuum chamber. This would be partly filled with hundreds of tons of charcoal blocks suspended on wires. The explosion would of course turn the charcoal into fine dust which would then absorb the energy from the explosion by being converted into gas. The pressure wouldn’t be excessive since most of the volume was originally vacuum and the energy would transfer relatively slowly to the chamber walls so they wouldn’t melt, at least not much. According to Dyson’s calculations the whole thing would only work for quite small nuclear explosions, up to a few tenths of a kiloton, but that was the range they were interested in for the Orion project anyway. The idea apparently interested the AEC as well when they realized that if done in an underground cavity it would both prevent the escape of nuclear debris to the atmosphere and almost completely de-couple the explosion from the surrounding rock, thus making it possible to do undetectable nuclear tests. According to rumour it was actually tried in extreme secrecy in Nevada and worked more or less as intended. tty |
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Jan 6 2006, 05:51 PM
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#34
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Member Group: Members Posts: 540 Joined: 25-October 05 From: California Member No.: 535 |
QUOTE (Richard Trigaux @ Dec 26 2005, 02:27 AM) Hahaha!! I'd say something...but I don't wanna turn this into a political topic. EDIT: Okay, so I just browsed through the rest of this thread. I guess I didn't have to get political. -------------------- 2011 JPL Tweetup photos: http://www.rich-parno.com/aa_jpltweetup.html
http://human-spaceflight.blogspot.com |
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Jan 6 2006, 11:06 PM
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#35
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
QUOTE (tty @ Dec 29 2005, 07:38 PM) I wonder if the use of coal to absorb the heat has something to with an idea Freeman Dyson came up with when he was working on the Orion nuclear propulsion project. The problem was how to test the concept without breaking the test ban since the test needed to be done in vacuum. Dyson’s idea was to do the test indoors in a very large vacuum chamber. This would be partly filled with hundreds of tons of charcoal blocks suspended on wires. The explosion would of course turn the charcoal into fine dust which would then absorb the energy from the explosion by being converted into gas. The pressure wouldn’t be excessive since most of the volume was originally vacuum and the energy would transfer relatively slowly to the chamber walls so they wouldn’t melt, at least not much. According to Dyson’s calculations the whole thing would only work for quite small nuclear explosions, up to a few tenths of a kiloton, but that was the range they were interested in for the Orion project anyway. The idea apparently interested the AEC as well when they realized that if done in an underground cavity it would both prevent the escape of nuclear debris to the atmosphere and almost completely de-couple the explosion from the surrounding rock, thus making it possible to do undetectable nuclear tests. According to rumour it was actually tried in extreme secrecy in Nevada and worked more or less as intended. tty Freeman Dyson = Total JOY! What a guy! Bob Shaw -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Jan 7 2006, 03:02 AM
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#36
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Senior Member Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 |
QUOTE (Bob Shaw @ Jan 6 2006, 06:06 PM) He is also pretty nifty at coming up with ways to utilize all of a star's energy: http://www.orionsarm.com/civ/Dyson_Spheres.html -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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Jul 6 2007, 02:49 PM
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#37
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Member Group: Members Posts: 170 Joined: 17-March 06 Member No.: 709 |
The Solar Probe project is still alive. In a Report released on July 4, 2007,
regarding their actions on NASA's FY 2008 budget, the Senate Appropriations Committee states the following - "The Committee has included an additional $20,000,000 for the Living With A Star Program for the Solar Probe mission." Another Phil |
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Jul 9 2007, 06:41 AM
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#38
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The Insider Group: Members Posts: 669 Joined: 3-May 04 Member No.: 73 |
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Jul 19 2007, 05:41 PM
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#39
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Interplanetary Dumpster Diver Group: Admin Posts: 4404 Joined: 17-February 04 From: Powell, TN Member No.: 33 |
If it actually gets funded, it should also give us a nice Jupiter bonus. I am not sure about imaging (perhaps it will have a navigation camera or be able to catch Jupiter and its moons in one of its cameras intended for the sun like STEREO did), but I can't imagine them passing up the chance to at least have a Ulysses-style encounter, given the fact that this mission will certainly have its fair share of particle and fields instruments.
-------------------- |
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Jul 29 2007, 11:01 PM
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#40
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Junior Member Group: Members Posts: 40 Joined: 28-July 07 Member No.: 2984 |
Hey, my first post here.
So my idea for a solar probe involves a super long tethered probe, spinning at a rate so as to have it's surface velocity with respect to the Sun be close to zero. The "mothership" would be far enough away to endure the environment. I know, extremely long tether... Another thought I had would be a "floater", i.e., a probe with enough surface area that it took advantage of the flux of light and other stuff to suspend itself at a distance above the surface. It'd be a way of lowering the geosynchronous orbit altitude way down, or generally lowering the speed of the orbit. I didn't see any other concepts taking advantage of solar sails to assist in reaching the Sun. Maybe the floater and the tether could be combined. |
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Guest_Geographer_* |
Nov 8 2007, 04:18 PM
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#41
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What is the highest level of albedo that's been achieved with metals on Earth? If a shield had 100% reflectivity (impossible I know but theoretically), would that solve all heating problems, or does the albedo vary for different types of electromagnetic radiation?
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Dec 11 2007, 08:23 AM
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#42
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Senior Member Group: Members Posts: 2530 Joined: 20-April 05 Member No.: 321 |
From one reference on the web, I'm seeing that aluminum has an albedo of 73%.
Suppose that tungsten had the same albedo. By my calculations, a surface of tungsten, then, would melt if held in steady state at about 0.17 AU. However, there are a lot of other tricks that could be played to help out. A thin foil of tungsten would only take solar radiation on one side while radiating it on the other. Halving the thermal load should allow an approach sqrt(2) closer. The sunscreen on SP is a long cone that would be pointed towards the Sun. That spreads out the radiation that a disk would absorb over a much greater area. I don't see any theoretical limit to this approach, although the point at the very tip might be a failure point. There would have to be SOME surface perpendicular to the Sun. I guess if a maniacal plunge sunward were attempted with the goal of approaching as near as possible, one strategy would be to have a series of sunscreens, each of which had enough separation from the main craft so as not to radiate much heat inward, with each one shaded until the one in front of it melted through. If the final plunge were fast enough (if, say, a gravity assist of Jupiter really whipped the thing into the Sun, with all of the acceleration that would come with that last neck of the Sun's gravity well), it might make a lot of progress in those final hours during which the screens were melting one after another. I wonder what the engineering limit would be. The corona? The point where gas actually contributed measurable friction? Since such a craft could easily be set up for a free return to Earth, could we run a solar sample return?!? I'm not sure if there's much point doing it from close-up versus collecting the solar wind farther out, but it's an exciting idea. |
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Dec 11 2007, 11:42 AM
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#43
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Senior Member Group: Members Posts: 3516 Joined: 4-November 05 From: North Wales Member No.: 542 |
Has anyone suggested using the phenomenon of total internal reflection in glass prisms? This is virtually 100 percent efficient.
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Dec 11 2007, 11:49 AM
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#44
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Senior Member Group: Members Posts: 3648 Joined: 1-October 05 From: Croatia Member No.: 523 |
Wouldn't a big glass prism be massive?
-------------------- |
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Dec 11 2007, 11:57 AM
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#45
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Senior Member Group: Members Posts: 3516 Joined: 4-November 05 From: North Wales Member No.: 542 |
Lots of little ones forming a scaly skin? A cloud of detached beads in front of the spacecraft??
I dunno, just rambling. |
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Dec 11 2007, 12:17 PM
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#46
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Senior Member Group: Moderator Posts: 2785 Joined: 10-November 06 From: Pasadena, CA Member No.: 1345 |
Or how about ice crystals?
Could the probe squirt out a little water in front that would make a series of temporary shields of ice crystals? Could you design the atomizing device so that it would preferentially form ice crystals in the vacuum of space with maximum reflectivity? As it breaks down, would it also do decent job of absorbing heat? (And water is relatively light to carry.) So we'd be making an artificial comet! (Really wildly speculating out there) -------------------- Some higher resolution images available at my photostream: http://www.flickr.com/photos/31678681@N07/
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Dec 11 2007, 02:23 PM
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#47
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Senior Member Group: Moderator Posts: 2262 Joined: 9-February 04 From: Melbourne - Oz Member No.: 16 |
I notice from reading this months BIS magazine (thanks for the free copy Phil ) that the Australians are now also proposing a solar probe like mission to get to within 3-4 solar radii. No clues as to how they intend to do it though.
ABC article -------------------- |
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Dec 11 2007, 02:27 PM
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#48
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Senior Member Group: Moderator Posts: 2785 Joined: 10-November 06 From: Pasadena, CA Member No.: 1345 |
the Australians are now also proposing a solar probe like mission to get to within 3-4 solar radii. No clues as to how they intend to do it though. Maybe they'll go at night? -------------------- Some higher resolution images available at my photostream: http://www.flickr.com/photos/31678681@N07/
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Feb 5 2008, 05:44 PM
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#49
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Junior Member Group: Members Posts: 55 Joined: 1-May 06 From: Cincinnati, Ohio Member No.: 758 |
I understand that Johns Hopkins University Applied Physics Lab (JHU/APL) has been studying the solar probe mission. The usual debates about mission capability, payload, and cost continue to swirl.
My source says that the various factions continue to not play nicely (scientists, NASA headquarters, Goddard, contractors) all of which wastes time, money and effort. There was a Dilbert cartoon once (or perhaps a spoof) where the pointy-haired manager tells Dilbert that the spaceprobe weighs too much so he should delete the science instruments... R. |
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Feb 5 2008, 05:56 PM
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#50
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
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Feb 19 2008, 07:24 PM
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#51
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
I have just received the author's copies of the March issue of the JBIS, with my article on the history of two 1970s European deep space missions, including the first close perihelion Sun probe study
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May 5 2008, 09:32 AM
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#52
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Member Group: Members Posts: 118 Joined: 18-November 07 Member No.: 3964 |
NASA Calls on APL to Send a Probe to the Sun
It seems they plan to use deployable solar arrays (however, the mission home page still states that there will be MMRTGs) |
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Jun 12 2008, 08:33 AM
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#53
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Newbie Group: Members Posts: 3 Joined: 6-June 08 Member No.: 4190 |
-------------------- "In the beginning the Universe was created. This has made a lot of people very angry and been widely regarded as a bad move"
Douglas Adams www.astrochat.co.uk |
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Jun 12 2008, 10:53 AM
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#54
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Member Group: Members Posts: 118 Joined: 18-November 07 Member No.: 3964 |
More detailed technical information here:
Solar Probe+ Mission Engineering Study Report |
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Jul 7 2010, 04:58 PM
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#55
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Member Group: Members Posts: 293 Joined: 29-August 06 From: Columbia, MD Member No.: 1083 |
Solar Probe Plus has been given the green light to move into Phase A. Basically, it's a real mission now. Launch is scheduled for 2018 currently, but that's due to budgetary restrictions, not technical ones. According to the APL managers, this mission could go 2-3 years earlier if additional funding was provided.
http://solarprobe.jhuapl.edu/ The launch date on this website is incorrect. |
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Jul 27 2010, 05:46 PM
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#56
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Member Group: Members Posts: 293 Joined: 29-August 06 From: Columbia, MD Member No.: 1083 |
It seems that the ESA Solar Orbiter mission (if selected) would compliment Solar Probe+, and possibly even launch on the same vehicle. ESA's mission won't get as close to the Sun, but having two spacecraft at different radii would allow some synergistic science.
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Guest_Sunspot_* |
Jul 27 2010, 07:54 PM
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#57
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Cool
We can never have too many solar missions |
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Sep 3 2010, 12:39 AM
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#58
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Member Group: Members Posts: 540 Joined: 25-October 05 From: California Member No.: 535 |
A new article on Solar Probe Plus... 5 science instruments have been selected for the mission
http://science.nasa.gov/science-news/scien...2010/02sep_spp/ So will NASA or The Planetary Society have a "Send Your Name to the Sun" campaign before the launch in 2018? -------------------- 2011 JPL Tweetup photos: http://www.rich-parno.com/aa_jpltweetup.html
http://human-spaceflight.blogspot.com |
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Sep 3 2010, 03:45 AM
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#59
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Senior Member Group: Members Posts: 1585 Joined: 14-October 05 From: Vermont Member No.: 530 |
Actually only four instruments mentioned, but radio science isn't mentioned, so that might as well be a 5th.
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Sep 19 2010, 08:57 PM
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#60
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Senior Member Group: Members Posts: 1649 Joined: 5-March 05 From: Boulder, CO Member No.: 184 |
What is the highest level of albedo that's been achieved with metals on Earth? If a shield had 100% reflectivity (impossible I know but theoretically), would that solve all heating problems, or does the albedo vary for different types of electromagnetic radiation? At least in visible light silver is pretty high (somewhere above 90%). Dielectric coatings can use interference to make reflectivity even higher. More info here on reflectivity of coatings: http://www.optosigma.com/miva/merchant.mv?...ection+Coatings What is being used on the shield in the solar probe design? -------------------- Steve [ my home page and planetary maps page ]
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Sep 20 2010, 05:52 AM
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#61
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Senior Member Group: Members Posts: 1585 Joined: 14-October 05 From: Vermont Member No.: 530 |
What is being used on the shield in the solar probe design? I was determined to find the answer to this seemingly simple question. Judging from the document, they're hedging their bets for prototype build and testing, but it will likely be 15cm of carbon-carbon with a coating of aluminum oxide or pyrolytic boron nitride. Page 58/146 marked as 3-42 of this: http://solarprobe.gsfc.nasa.gov/SolarProbe+ME.pdf QUOTE As part of the TPS Risk Mitigation effort, two potential ceramic coatings were found that met the requirements of the Solar Probe+ mission. Ceramic materials that are visibly white generally provide the optical characteristics compatible with the proposed shield passive thermal management strategy. These characteristics are low solar absorptivity and high IR emissivity. Thermodynamic stability and chemical compatibility with C-C are additional differentiators that further narrow the list of candidate ceramics. At the end of the study, both aluminum oxide (Al2O3), commonly called alumina, and pyrolytic boron nitride (PBN) were found to notionally satisfy these basic characteristics. Plenty more in there. |
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Sep 20 2010, 06:05 AM
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#62
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Senior Member Group: Members Posts: 1585 Joined: 14-October 05 From: Vermont Member No.: 530 |
If it actually gets funded, it should also give us a nice Jupiter bonus. In reading about the thermal shield, I've just noticed the new mission has a perihelion that is farther than the original plan, and incidentally an aphelion at 1 AU. So no Jupiter flyby. They dumped the RTGs that would've provided power out there as well. A good point mentioned in the report is that by lowering the perihelion gradually with aphelion TCMs, they have time to learn to manage the spacecraft before getting closer. Jupiter would no doubt have sent it right in. |
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Sep 21 2010, 07:22 AM
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#63
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Junior Member Group: Members Posts: 24 Joined: 29-May 08 From: Seattle, USA Member No.: 4162 |
Actually only four instruments mentioned, but radio science isn't mentioned, so that might as well be a 5th. The linked article mentions five instruments; the ISIS investigation uses two instruments, EPI-hi and EPI-lo, presumably to measure particles at different energies. It also discusses five investigations that have been funded, the fifth one being a project scientist that won't fly with the spacecraft. Obviously. |
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Guest_Sunspot_* |
Sep 30 2010, 10:55 PM
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#64
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More on one of the instruments
http://www.spaceref.com/news/viewpr.html?p...rce=twitter.com Wide-field Imager Selected for Solar Probe Plus Mission |
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Oct 5 2011, 05:51 PM
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#65
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Member Group: Members Posts: 118 Joined: 18-November 07 Member No.: 3964 |
Solar Orbiter is selected as ESA's first M-class mission:
Europe to lead daring Sun mission |
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Oct 5 2011, 05:55 PM
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#66
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
selected again, you mean. I don't want to get into politics, but Solar Orbiter has been on and off several times at ESA and was first selected as a medium mission in the early 2000s...
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Mar 8 2013, 09:56 PM
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#67
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Senior Member Group: Members Posts: 1585 Joined: 14-October 05 From: Vermont Member No.: 530 |
Solar Probe Plus mentioned in this interesting solar wind article:
http://science.nasa.gov/science-news/scien...8mar_solarwind/ Also mentioned is WIND, still trucking after almost 19 years... |
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Dec 3 2013, 06:33 PM
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#68
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
ESA's Solar Orbiter has recently been delayed from January to July 2017. On the other hand, I have not been able to find the sequence of flybys for the July 2017 launch. Ideas anyone?
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Dec 7 2013, 06:19 PM
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#69
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Junior Member Group: Members Posts: 66 Joined: 3-August 12 Member No.: 6454 |
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Dec 7 2013, 06:38 PM
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#70
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
it's now known as the Solar Probe Plus, an approved (and funded!) NASA-APL mission for launch in 2018.
http://solarprobe.jhuapl.edu/ |
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Feb 12 2014, 06:36 PM
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#71
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Senior Member Group: Members Posts: 2173 Joined: 28-December 04 From: Florida, USA Member No.: 132 |
Holy 2001-Space-Odyssey-caveman-thrown-bone-turning-into-spacecraft moment!
"A pigment once daubed on cave walls by prehistoric Man will help shield [ESA Solar Orbiter] an unmanned probe that will fly close to the Sun..." http://phys.org/news/2014-02-stone-age-spa...igment.html#jCp |
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Mar 1 2014, 12:09 PM
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#72
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Member Group: Members Posts: 212 Joined: 19-July 05 Member No.: 442 |
There is a user of the Orbiter Spaceflight simulator currenly working on simulating both the Solar Probe (+) and the 2005 version, the preliminary models are depicted flying by Venus:
and Jupiter: |
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Apr 26 2015, 12:04 PM
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#73
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Junior Member Group: Members Posts: 65 Joined: 19-November 14 From: Milan, Italy Member No.: 7340 |
ESA's Solar Orbiter has recently been delayed from January to July 2017. On the other hand, I have not been able to find the sequence of flybys for the July 2017 launch. Ideas anyone? It has just been delayed from Jul 2017 to Oct 2018. The decision to postpone the launch was taken in order to ensure that all of the spacecraft’s scientific goals will be achieved, with all the system’s components adequately tested prior to sending the spacecraft to the launch site. According to this paper (it refers to a Sep 2018 launch window, however I think it will be the same for Oct 2018): The transfer phase for this mission profile begins with a launch in September 2018, with an escape velocity from the Earth of 3.66 km/s and declination of the escape velocity of –41.5°. About 5 months after launch, a Venus GAM with a pericentre height of more than 11000 km places the spacecraft in a trajectory towards the Earth. An Earth GAM 10 months later puts the spacecraft into an orbit such that another Earth GAM occurs 22 months later. 2 months after the last Earth swing-by the spacecraft arrives at Venus with a hyperbolic velocity of 19.3 km/s. A sequence of resonances 1:1-1:1-4:3-3:2-3:2 is then performed at Venus during the science phase such that the solar inclination is gradually raised up to the final maximum value of 34°. The design of this sequence of resonances has been driven by the minimization of the maximum length of communications interruption due to safe mode during solar conjunctions. A first 4:3 resonance like in the January 2017 mission profile, while more attractive in terms of science, would exceed the limit of the current spacecraft design. The perihelion distance therefore rises slightly during the two 1:1 resonant orbits and drops below 0.3 AU for the 4:3 and the first 3:2 resonant orbits. The first perihelion within this distance occurs 4.6 years after launch. The maximum solar latitude is reached 7.6 years after launch. The characteristics of the September 2018 mission profile are summarized in Table 4. |
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May 30 2017, 08:53 PM
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#74
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Senior Member Group: Members Posts: 2091 Joined: 13-February 10 From: Ontario Member No.: 5221 |
New announcement tomorrow on Solar Probe Plus:
http://www.space.com/37023-solar-probe-plu...nt-webcast.html |
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Jun 1 2017, 09:15 PM
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#75
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Member Group: Members Posts: 656 Joined: 20-April 05 From: League City, Texas Member No.: 285 |
Looking over the details of this mission, and contemplating the current mission finale for Cassini, I'm left wondering about the mission finale for the Parker Solar Probe. Perhaps a final orbit aimed at skimming the solar surface, and transmitting data until the vehicle dies? In the interim, perhaps crank-up the inclination during mission extension so that we get some polar views of the sun like we're getting from Jupiter by the Juno probe?
Yes, I know, it is still way to early to worry about this sort of thing Oh, and why no ion propulsion? I would have thought this would be the ideal mission for that, in terms of solar power. But it seems to do okay with Venus slingshots. |
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Jun 1 2017, 09:50 PM
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#76
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Senior Member Group: Members Posts: 2091 Joined: 13-February 10 From: Ontario Member No.: 5221 |
Perhaps the heat makes ion engines prohibitive?
Regarding a closer approach at the end, I know they were asked at the press conference why they can't dropped the perihelion even closer, and the reply was that once they're inside the orbit of Venus, they can't make any more rendezvous with Venus. Presumably Mercury is nowhere near a useful trajectory (being more inclined in its orbit, and much less massive.) |
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Jun 5 2017, 07:38 AM
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#77
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Senior Member Group: Members Posts: 1276 Joined: 25-November 04 Member No.: 114 |
Curious will Parker Solar Probe also do Venus Science?
I have found no Information about this google wise. |
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Jun 5 2017, 05:46 PM
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#78
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Merciless Robot Group: Admin Posts: 8784 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
Here's a link to the instrumentation description. Obviously the mission is real heavy on particle & field observations, and I don't know whether the coronal imager (WISPR) is capable of resolving Venus in any useful way. Still, I'm sure they'll record data of some sort during the gravity assists.
Also, since the spacecraft has officially now been named, this topic has been re-titled. -------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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Jun 6 2017, 09:36 PM
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#79
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Senior Member Group: Members Posts: 2530 Joined: 20-April 05 Member No.: 321 |
It took me a while to track down the specs of WISPR… many webpages with vague descriptions of it with links to other webpages with other vague descriptions of it. Finally, I got here:
http://www.affects-fp7.eu/helcats-meeting/...PR_vbothmer.pdf If I read it correctly, WISPR would not be capable of providing much useful Venus information. It is a "white light" telescope with one wide bandpass of 475-755 nm (blue to near-IR). That is going to show a very blank Venus with none of the interesting wavelengths (UV or thermal IR). The peak resolution is 4.3 arcmin per pixel which is extremely low resolution by the standards of most of the spacecraft imaging missions we think of. Basically, it's a whole sky camera, like what might be used to take a picture of the Milky Way in the Earth's night sky. For Venus to look interesting to this camera, it would have to be zooming right over Venus's day side at close range, and even then it would be pretty much guaranteed to show a colorless blank image. I don't think in the best of circumstances WISPR could do any original Venus science. |
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Jun 6 2017, 11:59 PM
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#80
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Senior Member Group: Members Posts: 1649 Joined: 5-March 05 From: Boulder, CO Member No.: 184 |
I wonder if some high-phase angle images with such a camera at fairly close range could show some interesting atmospheric effects. Even the ashen-light if it were to exist. Possibly in the daytime I wonder if there are some subtle colors, either brownish if sulfuric acid absorbs or bluish as Rayleigh scattering contributes along with the clouds.
-------------------- Steve [ my home page and planetary maps page ]
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Jun 8 2017, 12:41 AM
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#81
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Senior Member Group: Members Posts: 2530 Joined: 20-April 05 Member No.: 321 |
WISPR wouldn't see color – by "white light" the specs mean a single plane responsive to one wide range of wavelengths, in layman's terms, a black-and-white camera.
The only conceivable advantage over existing datasets would be if it captured Venus' phase angle function from a unique perspective, but Earth-based observations provide basically all angles except the perfectly "full" and perfectly "new" Venus, and we know that Venus Express has covered the "full" phase and multiple orbiters have had the opportunity to image Venus' night side. So I can't see any science coming from this if we're talking about persistent appearance of the planet. Of course, we can never rule out something sporadic light imaging a lightning flash on the night side, although WISPR's quick passes will provide far less chance of that than the long missions of, e.g., Venus Express and Akatsuki. |
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Jul 26 2018, 03:51 PM
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#82
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Senior Member Group: Members Posts: 2091 Joined: 13-February 10 From: Ontario Member No.: 5221 |
The launch has been delayed a few times to August 11th; is the first Venus flyby 'locked in' for September 30th because of orbital mechanics? If so, then at six weeks this is probably the fastest launch to Venus encounter (or any planet!) in history!
Mariner 2 was 110 days travel time, Venera 3 we're not certain because of the communications failure, put maybe less. Anyone know for certain? |
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Jul 26 2018, 07:08 PM
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#83
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Member Group: Members Posts: 541 Joined: 17-November 05 From: Oklahoma Member No.: 557 |
The time from launch to probe entry for Venera 3 could have been either 105 or 106 days (105 is listed on the Wikipedia article, my date calculation is 106 not taking hours and minutes into account).
Regardless of the launch date, I would expect Parker to arrive at Venus on or near September 30th. Recent Mars probes launched late had pretty close to the same arrival dates. There might be a couple days difference. More important, they are starting to run out of time. As explained in this article which was issued for the Aug 6th launch date, they only have until August 19th (or maybe August 23rd at the very latest) to get it off before spending a lot more time and money waiting. And I will guarantee you a different Venus fly by date if that happens. EDIT I believe the current holder of the record for Earth to Venus is Mariner 10, which made the trip in 95 days. Also, I neglected to notice that this launch differs from the Mars shots I mention due to being a high energy trajectory. So the effect on the arrival date might be more significant, but I don't know by how much. |
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Aug 1 2018, 01:43 PM
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#84
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Member Group: Members Posts: 541 Joined: 17-November 05 From: Oklahoma Member No.: 557 |
Latest news is that the Venus flyby will be October 2 based on an August 11 launch. So about 53 days to first encounter from departure.
Spaceflight Now article "... Driesman told Spaceflight Now he is confident the mission will get off the ground in August. 'The operations are proceeding at what I would call a normal pace,' he said. 'There’s always time built in for not getting things right. At this point, we’re on track for the 11th (of August) launch date.'" |
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Aug 1 2018, 05:18 PM
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#85
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Senior Member Group: Members Posts: 2530 Joined: 20-April 05 Member No.: 321 |
Mariner 10 reached Venus in 94 days. I don't know if that's the record, but I thought it would be worth checking since the whole point of the encounter was for a gravity assist on such a high-delta-v mission.
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Aug 1 2018, 05:40 PM
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#86
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
Cassini Venus to Earth in 1999 was 55 days
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Aug 8 2018, 01:57 PM
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#87
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Member Group: Members Posts: 541 Joined: 17-November 05 From: Oklahoma Member No.: 557 |
You're all missing the obvious way to design a Solar Probe, although ISA already described a most persuasive mission scenario. Just build one and launch it at night! Hey, they ARE launching it at night! So NASA must be thinking the same thing. You can never be too careful. |
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Aug 8 2018, 06:19 PM
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#88
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Junior Member Group: Members Posts: 43 Joined: 13-June 08 Member No.: 4206 |
Well at least they are launching it at night! For real.
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Aug 11 2018, 04:07 AM
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#89
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Merciless Robot Group: Admin Posts: 8784 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
Launch now set for 0753 GMT. Live coverage here.
Note: For those who have never seen a Delta IV Heavy launch before, the exteriors of the three booster cores tend to...er...catch on fire during initial ascent off the pad. This is caused by entrapped vented hydrogen that is subsequently ignited by the engines, and is both normal and expected. Since this will be a night launch, the effect should be rather spectacular. -------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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Aug 11 2018, 07:42 AM
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#90
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Merciless Robot Group: Admin Posts: 8784 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
T minus 10 min now. So far so good.
GO PARKER!!!!!!!!! EDIT: No-go for unspecified condition, waiting for new T-0. EDIT2: New T-0 0828 GMT. EDIT3: ....aaaaand, scrub. -------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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Aug 13 2018, 11:02 AM
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#91
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Member Group: Members Posts: 559 Joined: 1-May 06 From: Scotland (Ecosse, Escocia) Member No.: 759 |
I believe New Horizons took about 9 hours, from launch, to cross the Moon's orbit, giving it the fastest Earth departure ever.
I suspect Parker may have exceeded that, but can't find the relevant facts -- any ideas? I was looking for the trajectory views using NASA's Solar System Simulator, seen here for New Horizons : Where is New Horizons? But the same thing does not (yet) seem to be up for Parker. |
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Aug 13 2018, 12:19 PM
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#92
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Senior Member Group: Members Posts: 2091 Joined: 13-February 10 From: Ontario Member No.: 5221 |
According to Jonathan McDowell, it was a lot faster (see this tweet: https://twitter.com/planet4589/status/1028699688889933824 .)
And there's this: http://orbitsimulator.com/gravitySimulator...PassesMoon.html |
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Aug 20 2018, 06:35 PM
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#93
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Member Group: Members Posts: 541 Joined: 17-November 05 From: Oklahoma Member No.: 557 |
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Sep 19 2018, 07:11 PM
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#94
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Senior Member Group: Members Posts: 1729 Joined: 3-August 06 From: 43° 35' 53" N 1° 26' 35" E Member No.: 1004 |
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Sep 20 2018, 04:26 AM
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#95
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Merciless Robot Group: Admin Posts: 8784 Joined: 8-December 05 From: Los Angeles Member No.: 602 |
Bit surprised at the quality of these since I thought all the cams were designed for far higher light levels. Pleasantly so, though.
-------------------- A few will take this knowledge and use this power of a dream realized as a force for change, an impetus for further discovery to make less ancient dreams real.
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Sep 20 2018, 02:56 PM
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#96
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Director of Galilean Photography Group: Members Posts: 896 Joined: 15-July 04 From: Austin, TX Member No.: 93 |
WISPR looks for plasma coming off the Sun, so it's not too surprising it's a decent dark-sky camera.
https://www.youtube.com/watch?v=w3ngdm6GTbc Maybe it'll get really lucky and find some Vulcan asteroids! Looks like STEREO searches have removed chances of anything larger than ~6km. -------------------- Space Enthusiast Richard Hendricks
-- "The engineers, as usual, made a tremendous fuss. Again as usual, they did the job in half the time they had dismissed as being absolutely impossible." --Rescue Party, Arthur C Clarke Mother Nature is the final inspector of all quality. |
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Sep 20 2018, 03:35 PM
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#97
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Senior Member Group: Members Posts: 2091 Joined: 13-February 10 From: Ontario Member No.: 5221 |
Maybe it'll get really lucky and find some Vulcan asteroids! Looks like STEREO searches have removed chances of anything larger than ~6km. Remember that if one considers the length of the mission, we might get a sungrazer comet near perihelion. The unique angle of observation (and distance) would provide valuable science when combined with observations at 1 AU. Though there's no dust sensor onboard, so no direct way to see if it passes through any of their debris streams? |
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Sep 25 2018, 02:42 PM
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#98
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Director of Galilean Photography Group: Members Posts: 896 Joined: 15-July 04 From: Austin, TX Member No.: 93 |
Maybe dust impacts could be detected via attitude control.
-------------------- Space Enthusiast Richard Hendricks
-- "The engineers, as usual, made a tremendous fuss. Again as usual, they did the job in half the time they had dismissed as being absolutely impossible." --Rescue Party, Arthur C Clarke Mother Nature is the final inspector of all quality. |
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Oct 3 2018, 11:02 PM
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#99
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Senior Member Group: Members Posts: 2091 Joined: 13-February 10 From: Ontario Member No.: 5221 |
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Oct 4 2018, 03:18 AM
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#100
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Member Group: Members Posts: 291 Joined: 29-December 05 From: Ottawa, ON Member No.: 624 |
That's crazy fast. What was the next quickest launch to planetary flyby?
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