coming from the SW, around sunset. oh, well . . .
Looks like we'll get another visit from the Shuttle/747 combo here in San Antonio. Maybe I'll actually see it this time.
“Everybody is a genius. But if you judge a fish by its ability to climb a tree, it will live its whole life believing that it is stupid.”
― Albert Einstein
Doing the popular thing is not always right. Doing the right thing is not always popular
― Albert Einstein
Doing the popular thing is not always right. Doing the right thing is not always popular
Wewt - http://edition.cnn.com/video/#/video/us … nding.nasa
That thing looks as tho it drops like a rock, even a minute out from touchdown
That thing looks as tho it drops like a rock, even a minute out from touchdown
They had jets flying over at the same time in the video. I was like what the hell?mcminty wrote:
Wewt - http://edition.cnn.com/video/#/video/us … nding.nasa
That thing looks as tho it drops like a rock, even a minute out from touchdown
I have seen the shuttle coming in before and it's kinda odd, no sound whatsoever.
http://www.nasa.gov/mission_pages/shutt … ng101.htmlTIG-4 hours
Crew members begin preparations for landing. The orbiter's onboard computers are configured for entry, as is the hydraulic system that powers the orbiter's aerosurfaces -- its rudder speed brake and wing elevons.
TIG-3 hours
The payload bay doors are closed. Mission Control gives the commander the "go" for Ops 3, the portion of the orbiter's flight control software that manages entry and landing.
TIG-2 hours
Starting with the commander and pilot, the flight crew members don their orange launch and entry suits and strap into their seats.
TIG-1 hour
Mission Control gives the "go" for deorbit burn.
DEORBIT BURN
The orbiter and crew are officially on their way home.
During reentry and landing, the orbiter is not powered by engines. Instead, it flies like a high-tech glider, relying first on its steering jets and then its aerosurfaces to control the airflow around it.
Landing-30 minutes
Roughly half an hour after the deorbit burn, the orbiter will begin to encounter the effects of the atmosphere. Called entry interface, this point usually takes place at an altitude of about 80 miles, and more than 5,000 statute miles from the landing site.
Early in reentry, the orbiter's orientation is controlled by the aft steering jets, part of the reaction control system. But during descent, the vehicle flies less like a spacecraft and more like an aircraft. Its aerosurfaces -- the wing flaps and rudder -- gradually become active as air pressure builds. As those surfaces become usable, the steering jets turn off automatically.
To use up excess energy, the orbiter performs a series of four steep banks, rolling over as much as 80 degrees to one side or the other, to slow down. The series of banks gives the shuttle's track toward landing an appearance similar to an elongated letter "S."
As the orbiter slices through the atmosphere faster than the speed of sound, the sonic boom -- really, two distinct claps less than a second apart -- can be heard across parts of Florida, depending on the flight path.
Landing-5 minutes
The orbiter's velocity eases below the speed of sound about 25 statute miles from the runway. As the orbiter nears the Shuttle Landing Facility, the commander takes manual control, piloting the vehicle to touchdown on one of two ends of the SLF.
As it aligns with the runway, the orbiter begins a steep descent with the nose angled as much as 19 degrees down from horizontal. This glide slope is seven times steeper than the average commercial airliner landing. During the final approach, the vehicle drops toward the runway 20 times faster than a commercial airliner as its rate of descent and airspeed increase. At less than 2,000 feet above the ground, the commander raises the nose and slows the rate of descent in preparation for touchdown.
Landing-15 seconds
The main and nose landing gear are deployed and locked in place.
Touchdown!
The orbiter's main landing gear touches down on the runway at 214 to 226 miles per hour, followed by the nose gear. The drag chute is deployed, and the orbiter coasts to a stop.
Xbone Stormsurgezz
^^ That big banking maneuver would be cool to see.
Well that would explain what I sawKmarion wrote:
As it aligns with the runway, the orbiter begins a steep descent with the nose angled as much as 19 degrees down from horizontal. This glide slope is seven times steeper than the average commercial airliner landing. During the final approach, the vehicle drops toward the runway 20 times faster than a commercial airliner as its rate of descent and airspeed increase. At less than 2,000 feet above the ground, the commander raises the nose and slows the rate of descent in preparation for touchdown.
Taking Pictures From Space (NASA, 09/08/09)
Using a still camera at a window on the aft flight deck of Space Shuttle Discovery, NASA astronaut Tim Kopra, STS-128 mission specialist, photographs the International Space Station (visible through the window) after the undocking of the two spacecraft.
Image credit: NASA
Xbone Stormsurgezz
doesn't work for me...mcminty wrote:
Wewt - http://edition.cnn.com/video/#/video/us … nding.nasa
That thing looks as tho it drops like a rock, even a minute out from touchdown
there are some more videos here though:
http://www.nasa.gov/mission_pages/shutt … index.html
I read somewhere the ISS makes two full orbits around Earth in a 24 hour period?
Nature is a powerful force. Those who seek to subdue nature, never do so permanently.
^^ The ISS orbits the earth about every 90 minutes.
Xbone Stormsurgezz
The last link has got some useful links as well.Kmarion wrote:
The path is also a problem for North American viewing..
http://i26.tinypic.com/2q0n24x.jpg
http://i26.tinypic.com/2m8163q.jpg
Live data: http://spaceflight.nasa.gov/realdata/tr … index.html
http://spaceflight.nasa.gov/realdata/
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