Posts Tagged ‘space’
Putting paid to the moon landing conspiracy theorists
November 5th, 2009
http://www.nasa.gov/mission_pages/LRO/multimedia/lroimages/lroc_20091104_apollo12.html
Apollo 12 landing site images taken from the LRO – you can see astronaut footpaths, lunar module descent stage and experiments they left behind.
http://www.nasa.gov/mission_pages/LRO/multimedia/lroimages/lroc_20091028_apollo.html
Apollo 17:
The descent stage of the lunar module Challenger is now clearly visible, at 50 cm per pixel (angular resolution) the descent stage deck is 8 pixels across (4 meters), also note that the legs are also now distinguishable. The descent stage served as the launch pad for the ascent stage as it blasted off for a rendezvous with the command module America on 14 December 1972.
Tracks are clearly visible and can be followed to the east, where astronauts Jack Schmitt and Gene Cernan set up the Surface Electrical Properties experiment (SEP). Cernan drove the Lunar Roving Vehicle (LRV) in an intersecting north-south and east-west course to mark positions for laying out the SEP 35-meter antennas (circle labeled “SEP” marks the area of the SEP transmitter). The dark area just below the SEP experiment is where the astronauts left the rover, in a prime spot for monitoring the liftoff.
(except this won’t convince the nutters – they’ll just say the photos themselves are faked)
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STS-125 Launch Camera Videos (6 cameras)
May 21st, 2009
Awesome camera footage from 6 of the cameras attached to the two Solid Rocket Boosters and external propellant tank of the Shuttle – from lift-off to splashdown in the ocean – on mission STS-125.Interesting times, camera 1 (SRB Left Aft):
- 2:24 -
detach - Much
tumbling - 5:07 -
you can see something else falling into the atmosphere and starting to burn up
(the other SRB I assume) - 5:30 -
start to stabilise, or at least less flipping end over end - 6:15 – in
cloud - 6:50 -
glimpse the deployed parachutes (looking up) - 7:07 -
splash
Camera 2 (SRB Lr Intertank):
- This
camera has a microphone, so make sure
you have audio enabled – eerie stuff - 7:17 – camera view starts
- 7:48 -
detach (watch an SRB rotate in sync with us) - Amazing
views and eerie sounds – the white specks are apparently unburned propellant - 10:30 – quick view of a smoking SRM entering the atmosphere, more atmospheric noise now
- 11:30
skip to upward view of deployed chutes - 11:50 -
splashdown, and we fall over. Gurgling.
Camera 3 (SRB Left Forward, facing down):
- 12:08 -
launch at t-10 (facing down, great launch view) - 14:30 -
detach - Camera
view is unfortunately fogged :( - 17:03 -
view clears somewhat, beautiful Earth views - More
stable now, view mostly down. - 18:20 -
some puffs / fire from the exhaust, this thing is still burning - Parachute
deployed? - 18:30 -
ocean through the clouds - 19:15 -
splash, fall over, cool
Camera 4 (SRB Right Aft, facing up):
- 19:40 -
footage starts of launch - 21:58 -
detach, bye bye shuttle - Rest of
video cut short
Camera 5 (SRB Rt Intertank – like the other intertank camera
has a microphone feed):
- 22:22
starts - 22:56 -
detach - Beautiful
falling / tumbling views of earth - 25:25 -
things get noisy - 26:05 -
mic feed stops, view mostly down now - 26:40 -
skip to parachute deployment, facing up, looking almost straight into the sun - 27:12 -
splash. Get to see the chutes falling into the sea and collapsing
Camera 6 (SRB Right Forward):
- 28:18 -
footage starts, probably the best launch footage of the down view - 30:41 -
detach - View
fogged :( - Sun-earth-sun-earth-etc
:) - 33:17
clearer view briefly, more stable - 34:35
parachute? Ocean incoming - 35:17 -
splashdown, splash reaches camera
Track 13,000 Satellites in real-time
October 3rd, 2008
“Many people have no idea how many satellites orbit around the Earth. Now you can see the real-time positions of over 13,000 satellites updated every 30 seconds with Google Earth. The satellite positions come from a US government-sponsored database which Analytic Graphics, Inc., has interfaced with to make the data visible in 3D. Zoom around in space and pause to see the names of the satellites. Click on the satellite placemark icons to see more information on each one. Here is a YouTube video showing what the satellite visualization looks like. You can view the actual collection with AGI’s KML file in Google Earth. You can also watch it in your browser using the Earth plugin on this page by Google Earth Blog.”
~From the October 2008 issue of “The Sightseer” monthly newsletter for Google Earth.
“This KML network link visualizes all earth orbiting objects tracked by the United States Strategic Command (USSTRATCOM) using the satellite database processed by Analytical Graphics, Inc. using the Dynamic Geometry Library. All satellites are tracked in real-time and updated every 30 seconds.
USSTRATCOM has been tracking space objects since 1957 when the Soviets opened the space age with the launch of Sputnik I. Since then, they have recorded more than 26,000 space objects orbiting Earth. There are currently more than 12,000 man-made orbiting objects, the rest have re-entered Earth’s turbulent atmosphere and disintegrated, or survived re-entry and impacted the Earth. The space objects now orbiting Earth range from satellites weighing several tons to pieces of spent rocket bodies weighing under 10 pounds. About 3,000 space objects are operational satellites, the rest are space debris, retired satellites and rocket bodies left over from launches.
Analytical Graphics, Inc. (AGI) develops commercial off-the-shelf (COTS) analysis software for land, sea, air and space that is relied upon by the national security and space communities. With more than 32,000 worldwide installations, the main applications of AGI technologies focus on battlespace management, geospatial intelligence, space systems and national defense programs. In addition to the STK product suite, AGI produces the desktop software applications Navigation Tool Kit and Orbit Determination Tool Kit; interactive visualization AGI Viewer software; and the embedded technology development tool 4DX. For more information about AGI or its commercially available software technologies, e-mail info@agi.com or explore www.agi.com.”
Height
September 29th, 2008
From the excellent xkcd comic.
Phoenix on track for Monday Mars Landing
May 23rd, 2008
NASA’s Phoenix Mars Lander has just over 2 days left before touchdown in the Mars polar region. I’ll be following the touchdown as close to live as I can via NASA TV and the Launch Blog as well as twitter (finally, twitter usage I can relate to :-) and DSTV if a channel follows the landing.
The fun kicks off around 1:45am Monday (argh) South African time (4:46:33 p.m on Sunday – Pacific Daylight Time) when Phoenix enters the Martian atmosphere at over twenty thousand kilometres an hour (5.7 kilometres per second!) and hopefully touches down gently 7 minutes later. See below for links to landing guides and times – which take into account the 15 minutes 20 seconds it currently takes a radio signal from Mars to reach Earth.
The NASA press kit linked below gives the following mission overview:
NASA’s Mars Phoenix Lander mission is flying to a site in the far northern plains of Mars where it will analyze components of the surface, subsurface and atmosphere. It will use a trench-digging arm and a set of analytical tools to study water believed to be frozen into the soil just below the surface. It will check for the presence of organic compounds as part of an evaluation of whether the site has been a favorable environment for microbial life. The mission will place the stationary lander on the ground using descent engines all the way to the surface. The lander will have a prime mission of three months on Mars during late spring to mid-summer at the landing site.
This lander / landing is fascinating for several reasons:
- Of 13 attempts to land on the surface of Mars so far only *5* have succeeded
- Complex landing – no balloons this time, via descent engines all the way to the ground…. 5.7 km/s down to a soft landing in 7 minutes.
- Phoenix has a higher science instrument payload to total launch weight than any previous lander (thanks in part to using descent engines to touchdown safely rather than balloons to cushion the landing)
- Phoenix is an interplanetary laboratory – complete with a multi-talented robotic arm, multiple cameras (and for the first time one includes a motor adjusted focus), gas analyser with 8 tiny ovens, a wet chemical laboratory (which uses water from Earth), two microscopes, and a weather station.
I’ll also be recording the NASA TV coverage (using VLC) and can post that later, copyright permitting.
Links:
- NASA Landing Press Kit (3.2mb PDF, well worth the read!)
- Phoenix landing blog (although twitter may be a more up to date way to follow things)
- Landing events schedule
- 7 minutes of terror video
- space.com’s Phoenix Mars Lander: Step-by-Step Martian Landing Guide
