STS-51-D
Template:Short description Template:Use American English Template:Use mdy dates Template:Infobox spaceflight
STS-51-D was the 16th flight of NASA's Space Shuttle program, and the fourth flight of Space Shuttle Discovery.<ref name="press kit">{{#invoke:citation/CS1|citation |CitationClass=web }} Template:PD-notice</ref> The launch of STS-51-D from Kennedy Space Center (KSC), Florida, on April 12, 1985, was delayed by 55 minutes, after a boat strayed into the restricted Solid Rocket Booster (SRB) recovery zone. STS-51-D was the third shuttle mission to be extended.
On April 19, 1985, after a week-long flight, Discovery conducted the fifth shuttle landing at KSC. The shuttle suffered extensive brake damage and a ruptured tire during landing. This forced shuttle landings to be done at Edwards Air Force Base, California for the next five years until the development and implementation of nose wheel steering made landings at KSC more feasible.
CrewEdit
SpacewalkEdit
- Personnel: Hoffman and Griggs
- Date: April 16, 1985 (≈12:30–15:30 UTC)
- Duration: 3Template:Nbsphours, 6Template:Nbspminutes
Crew seat assignmentsEdit
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Launch | Landing | File:Space Shuttle seating plan.svg Seats 1–4 are on the flight deck. Seats 5–7 are on the mid-deck. |
---|---|---|---|---|
1 | Bobko | |||
2 | Williams | |||
3 | Seddon | Hoffman | ||
4 | Griggs | |||
5 | Hoffman | Seddon | ||
6 | Walker | |||
7 | Garn |
Mission summaryEdit
During STS-51-D, the shuttle crew deployed two communications satellites: Telesat-I (Anik C1) and Syncom IV-3 (also known as Leasat-3); both were Hughes-built satellites. Telesat-I was attached to a Payload Assist Module (PAM-D) motor and successfully deployed. Syncom IV-3, however, failed to initiate antenna deployment and spin-up, or ignite its perigee kick motor upon deployment. The mission was consequently extended by two days to ensure that the satellite's spacecraft sequencer start lever was in its proper position. Griggs and Hoffman performed an unscheduled Extravehicular Activity (EVA) to attach homemade "Flyswatter" devices to the shuttle's Remote Manipulator System (Canadarm). Seddon then engaged the satellite's start lever using the RMS, but again the post-deployment sequence did not begin.<ref name="walker20050414">Template:Cite interview Template:PD-notice</ref> The satellite was subsequently retrieved, repaired and successfully redeployed during the STS-51-I mission later that year.
DiscoveryTemplate:'s other mission payloads included the Continuous Flow Electrophoresis System III (CFES-III), which was flying for sixth time; two Shuttle Student Involvement Program (SSIP) experiments; the American Flight Echo-cardiograph (AFE); two Getaway specials (GASs); a set of Phase Partitioning Experiments (PPE); an astronomical photography verification test; various medical experiments; and "Toys in Space", an informal study of the behavior of simple toys in a microgravity environment, with the results being made available to school students upon the shuttle's return.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }} Template:PD-notice</ref>
Discovery landed on Runway 33 of the Shuttle Landing Facility at Kennedy Space Center at 13:54:28Template:NbspUTC (8:54:28Template:NbspamTemplate:NbspEST local time at the landing site). As the orbiter approached the runway, it was buffeted by a Template:Convert crosswind from the right, which pushed the orbiter Template:Convert left of the runway's center line as the rear landing gear touched down. As the orbiter rolled out, the crosswind continued to push it towards the left, causing it to drift Template:Convert from the center line of the Template:Convert runway. At this point, Commander Bobko began to counteract the drift by applying more pressure to the right-wheel brakes, a technique called differential steering, which brought the orbiter back to the center of the runway. However, he had to apply twice as much force to the right brakes and about Template:Convert before stopping the brakes on the right-side inboard tire locked up and Template:Convert before stopping the brakes on the right-side outboard tire locked up and the inboard tire blew. The incident prompted NASA to add nose wheel steering to the orbiters, which was complete by late 1985.<ref>Template:Cite book</ref> Until that work was completed, NASA would land the orbiters at the Edwards Air Force Base which offered the option of landing on a long and wide dry lake bed from more directions. Nose wheel steering was also implemented shortly before the Challenger disaster, which would ground the shuttle program for a time. Ultimately, it would be five years until a mission would again land at the SLF, when STS-38 had to divert there due to bad weather at Edwards.
Wake-up callsEdit
NASA began a tradition of playing music to astronauts during the Project Gemini, and first used music to wake up a flight crew during Apollo 15. Each track is specially chosen, often by the astronauts' families, and usually has a special meaning to an individual member of the crew, or is applicable to their daily activities.<ref name="chronology">Template:Cite news Template:PD-notice</ref>
Flight Day | Song | Artist/Composer |
---|---|---|
Day 2 | "Top of the World" | The Carpenters |
Day 3 | "Rescue Aid Society" | Song from the Disney film, The Rescuers |
GalleryEdit
- STS-51-D Telesat-1 deployment.jpg
Telesat-I during deployment
- STS-51-D Syncom IV-3 deployment.jpg
Syncom IV-3 during deployment
- STS-51-D flyswatter on RMS.jpg
Hoffman and Griggs attach the flyswatter device to the end of the Canadarm.
See alsoEdit
ReferencesEdit
External linksEdit
Template:Space Shuttle Discovery Template:All U.S. Space Shuttle Missions Template:Orbital launches in 1985