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The Oceanic Pole of Inaccessibility: Where Spacecraft Go To Die (bbc.com)
dryriver writes: Whether you launch a satellite into space or an entire space station like the Russian Mir, the Chinese Tiangong-1 or the International Space Station, what goes up must eventually come down -- re-enter earth's atmosphere. The greater the mass of what is in space -- Mir weighed 120 tons, the ISS weighs 450 tons and will be decommissioned in a decade -- the greater the likelihood that larger parts will not burn up completely during re-entry and crash to earth at high velocity. So there is a need for a place on earth where things falling back from space are least likely to cause damage or human casualties. The Oceanic Pole Of Inaccessibility is one of two such places.
The place furthest away from land -- it lies in the South Pacific some 2,700km (1,680 miles) south of the Pitcairn Islands -- somewhere in the no-man's land, or rather no-man's-sea, between Australia, New Zealand and South America, has become a favorite crash site for returning space equipment. "Scattered over an area of approximately 1,500 sq km (580 sq miles) on the ocean floor of this region is a graveyard of satellites. At last count there were more than 260 of them, mostly Russian," reports the BBC. "The wreckage of the Space Station Mir also lies there... Many times a year the supply module that goes to the International Space Station burns up in this region incinerating the station's waste." The International Space Station will also be carefully brought down in this region when its mission ends. No one is in any danger because of this controlled re-entry into our atmosphere. The region is not fished because oceanic currents avoid the area and do not bring nutrients to it, making marine life scarce.
The place furthest away from land -- it lies in the South Pacific some 2,700km (1,680 miles) south of the Pitcairn Islands -- somewhere in the no-man's land, or rather no-man's-sea, between Australia, New Zealand and South America, has become a favorite crash site for returning space equipment. "Scattered over an area of approximately 1,500 sq km (580 sq miles) on the ocean floor of this region is a graveyard of satellites. At last count there were more than 260 of them, mostly Russian," reports the BBC. "The wreckage of the Space Station Mir also lies there... Many times a year the supply module that goes to the International Space Station burns up in this region incinerating the station's waste." The International Space Station will also be carefully brought down in this region when its mission ends. No one is in any danger because of this controlled re-entry into our atmosphere. The region is not fished because oceanic currents avoid the area and do not bring nutrients to it, making marine life scarce.
something falls and scares the fish away
Bullshit. The ISS costs *nothing* to keep up since it is positioned at exactly the point where Earth's gravity equals the moon's gravity, so it just hangs there. The only reason it's being decommissioned is so that they can launch another one that was designed by women and people of color.
No, it's in low earth orbit. You're thinking of a Lagrange point, which is much further out. There's actually atmospheric drag on the ISS such that, without periodic corrections, will drag it down out of orbit. That's true of ANY low earth orbit satellite, of course.
At it's current altitude, the ISS orbit decays about 100m per day. And the lower it dips into the upper atmosphere, the faster the rate of decay becomes. Without correctional boosts, the ISS would probably fall from they sky relatively quickly. I've seen estimations of approximately six months or so.
Irony: Agile development has too much intertia to be abandoned now.
At it's current altitude, the ISS orbit decays about 100m per day. And the lower it dips into the upper atmosphere, the faster the rate of decay becomes. Without correctional boosts, the ISS would probably fall from they sky relatively quickly. I've seen estimations of approximately six months or so.
Pseudoscientific technobabble. I know from my decades of watching Star Trek that objects in low planetary orbit have mere hours before they burn up in the atmosphere. And also that, as the orbit decays, there’s lots of faster and faster beeping, and all the instrument panels start to spark and smoke.
#DeleteChrome
Bombing a lifeless void in the South Pacific with space junk....what could go wrong?
Finding God in a Dog
Why 254 miles above the earth's surface, where there's still some atmospheric drag, you ask?
1) Minor reason... to keep down fuel costs of sending people+supplies up to it. The trade-off is fuel costs of constant burns to keep ISS in orbit.
2) Major reason... the lower Van Allen radiation belt begins approx 500 km (approx 300 miles) above the earth's surface. https://en.wikipedia.org/wiki/... A moon mission (or beyond) would pass through the belts in a matter of hours; ditto for re-entry returning to earth. With sufficient shielding, you get the equivalant of a few whole-body X-rays. A 6-month mission inside the belts (i.e. above 300 miles) would probably be fatal.
Note that the belts trap charged particles, which would require shielding once you get beyond the belts. The Apollo lunar missions needed that extra sheilding. And that only sufficed for ordinary conditions. Had the sun had shot out a major solar flare pointed toward us during an Apollo mission, the astronauts would've been dead, no ifs, ands, ors, buts.
I'm not repeating myself
I'm an X window user; I'm an ex-Windows user
"safe design life" has an entire range of meanings. A module that was built to be safely habitable by human occupants might cease to be safe for that purpose, but still might be useful as a storage area. Kind of like how a damp basement might not be suitable for a bedroom, but is perfectly OK for use as a laundry room & place to store nearly-worthless junk for decades.
Maintaining things in low earth orbit costs money, but it's NOTHING compared to the cost of getting stuff up there in the first place.