Mercury-Redstone 1

The purpose of the MR-1 flight was to qualify the Mercury spacecraft and the Mercury-Redstone launch vehicle for the sub-orbital Mercury mission. It would also qualify the spacecraft's automated flight control and recovery systems, as well as the launch, tracking, and recovery operations on the ground.The Mercury-Redstone Project, p. 8-2.NSSDC Master Catalog page. The flight would also test the Mercury-Redstone's automatic inflight abort sensing system, which would be operating in "open-loop" mode. This meant that the abort sensing system could report a condition requiring an abort, but it would be unable to actually trigger an abort itself. Since the flight did not have a living passenger, this would not pose a safety problem, and it would prevent a faulty abort signal from prematurely ending the flight.

The test used Mercury spacecraft #2 together with Redstone MR-1;{{#tag:ref |NASA used the prefix "MR-" both for Mercury-Redstone flights and for launch vehicle numbers. Sometimes, as in this case, the flight and launch vehicle numbers were the same, but not always.The Mercury-Redstone Project, p. 6-3, 8-1. Some later sources use the prefix "MRLV-" for launch vehicle numbers, but this form does not seem to have been used by NASA. |group="note"}} its launch location was Cape Canaveral Air Force Station's Launch Complex 5. An early launch attempt on November 7 was canceled due to last-minute problems with the capsule, so launching was rescheduled for November 21.The Mercury-Redstone Project, p. 8-3."MR-1: The Four-Inch Flight", pp. 293-294.

On that day, following a normal countdown, the Mercury-Redstone's engine ignited on schedule at 9:00 a.m. Eastern Standard Time (14:00 GMT). However, the engine shut down immediately after lift-off from the launch pad. The rocket only rose about {{convert|4|in|cm}} before settling back onto the pad. Alarms were immediately sounded at LC-5, but the Redstone didn't explode. Instead it merely sat in place on the launch pad, after which an unusual sequence of events happened."MR-1: The Four-Inch Flight", p. 294.

Immediately after the Redstone's engine shut down, the Mercury capsule's escape rocket jettisoned itself, leaving the capsule attached to the Redstone booster. The escape rocket rose to an altitude of {{convert|4000|ft|m}} and landed about {{convert|400|yd|m}} away. Three seconds after the escape rocket fired, the capsule deployed its drogue parachute; it then deployed the main and reserve parachutes, ejecting the radio antenna fairing in the process.

In the end, all that had been launched was the escape rocket. However, the fully fueled and powered-up Redstone was now sitting on LC-5 with nothing securing it to the pad. Various other dangers existed as well, such as the capsule's retrorocket package and the range safety destruct charges. Furthermore, the capsule's main and reserve parachutes were hanging down the side of the rocket, threatening to tip it over if they caught enough wind; this did not occur, however, as the weather conditions were favorable. Amid the panicked atmosphere in the control room, the launch team was unable to come up with quick and viable options to rectify the situation. Flight director Chris Kraft rejected several unsafe interventions, including using a rifle to shoot holes in the booster's propellant tanks to depressurize them. He eventually took the advice of one of the test engineers to simply wait out the battery discharge and let the oxidizer boil off.{{cite book |title= Failure is not an Option |url= https://archive.org/details/isbn_9780743200790 |url-access= registration |publisher= Simon and Schuster |year= 2000 |first= Gene |last= Kranz |author-link= Gene Kranz }} This early test failure and subsequent panic led Kraft to declare "That is the first rule of flight control. If you don't know what to do, don't do anything." Technicians therefore waited until the next morning, when the flight batteries in the rocket and capsule had drained and the Redstone's liquid oxygen had boiled off, before they could work on the rocket and render it safe."MR-1: The Four-Inch Flight", pp. 294-296.

Investigation revealed that the Redstone's engine shutdown was caused by two of its electrical cables separating in the wrong order. These cables were a control cable, which provided various control signals, and a power cable, which provided electrical power and grounding. Both cables were plugged into the rocket at the bottom edge of one of its tail fins and would separate at liftoff.The Mercury-Redstone Project, p. 4-6, 4-47. The control cable was supposed to separate first, followed by the power cable. However, for this launch, the control cable was longer than expected—it was one designed for the military PGM-11 Redstone missile rather than the shorter cable designed for Mercury-Redstone. This control cable had been clamped to compensate for its greater length, but when the vehicle lifted off, the clamping did not work as planned and the control cable separation was delayed, eventually occurring about 29 milliseconds after the power cable had separated.The Mercury-Redstone Project, p. 8-3, 8-5.

During this brief interval, the lack of electrical grounding caused a substantial current to flow through an electrical relay which was supposed to trigger normal engine cut-off at the end of powered flight. This relay tripped, causing the Redstone to shut off its engine and send a "normal cut-off" signal to the capsule. Under normal circumstances, when the capsule received this signal during a flight, it would do two things: it would jettison its escape rocket, which was no longer of any use, and after the escape rocket had flown clear, fire the explosive bolts holding the capsule to the booster, for separation. In the case of MR-1, the capsule did jettison the escape rocket as it was designed to, but the separation sequence did not occur. The capsule was designed to suspend this separation until the vehicle's acceleration had almost ceased, so that the capsule would not be hit by a still-accelerating launch vehicle. This would happen when the capsule's acceleration sensors detected an acceleration approaching 0 g, which it would normally experience after the Redstone had shut down and was entering free fall. However, in MR-1, the Redstone was not in free fall but rather sitting supported on the ground. Thus the capsule sensors detected the effect of their own supported weight, which they read as a constant "acceleration" of 1 g. Because of this apparent acceleration, capsule separation was disabled.The Mercury-Redstone Project, p. 8-5.

The jettison of the escape rocket activated the capsule's parachute recovery system. Since the altitude was below {{convert|10000|ft|m}}, this system was triggered by its atmospheric pressure sensors and followed its usual sequence, with the drogue parachute deploying first, followed by the main parachute. But because the main parachute was not supporting the capsule's weight, the parachute system did not detect any load on this chute, so it acted as if the chute had failed and deployed the reserve parachute.

Since the Redstone's automatic inflight abort sensing system was running in open-loop mode, the engine shutdown did not trigger an abort. However, the system did report an abort condition, so it did function properly.The Mercury-Redstone Project, p. 8-6.

The Redstone had suffered some minor damage from falling back on the pad, but it could still be used after refurbishment, so it was returned to Marshall Space Flight Center in Huntsville, Alabama, and was held in reserve. A new test flight was scheduled, Mercury-Redstone 1A (MR-1A), which would use a new Mercury-Redstone rocket, numbered MR-3. MR-1's Mercury spacecraft, #2, was undamaged, so it was reused for MR-1A, together with the escape rocket from spacecraft #8 and the antenna fairing from spacecraft #10.The Mercury-Redstone Project, p. 8-5, 8-6."MR-1: The Four-Inch Flight", p. 296.

To prevent a failure like MR-1's from recurring, subsequent Mercury-Redstones added a grounding strap about {{convert|12|in|cm}} long to electrically connect the rocket to the launch pad. This strap was designed to separate from the rocket well after all other electrical connections to the ground had been severed.

Mercury engineers were also concerned that MR-1's failure had allowed a "normal cutoff" signal to reach the capsule and trigger the premature jettisoning of the escape rocket, since in an actual emergency this would remove the only escape mechanism for the astronaut. Had MR-1 been a crewed mission, the normal contingency would have been a pad abort, lifting the Mercury capsule off the booster and to safety via the escape rocket. Since the escape rocket had instead jettisoned itself from the capsule the astronaut would have been left in a very precarious situation, stuck inside the Mercury capsule atop a fully fueled, fully independently powered, yet completely untethered and partially damaged Redstone booster. To prevent a situation like this, the Mercury-Redstone was altered so that it could not send a "normal cutoff" signal to the capsule until 129.5 seconds after liftoff, about 10 seconds before the expected time of the Redstone's actual engine cutoff."MR-1: The Four-Inch Flight", p. 296-297.

MR-1 was never used for another flight after its return to Huntsville. It was eventually put on display at the Space Orientation Center of Marshall Space Flight Center.

Mercury spacecraft #2, used in both the Mercury-Redstone 1 and Mercury-Redstone 1A flights, was displayed at the NASA Ames Exploration Center, Moffett Federal Airfield, near Mountain View, California.{{cite web |title=NASA Ames Exploration Center |url=http://www.nasa.gov/centers/ames/home/exploration.html |publisher=NASA Ames Research Center |access-date=2009-05-14}} As of July 13, 2022, it is now on display at the Cradle of Aviation Museum in Garden City, New York.{{cite web|title=1st NASA capsule to fly into space lands at Long Island museum |first=Robert Z. |last=Pearlman |date=July 26, 2022|url=https://www.space.com/nasa-mercury-capsule-mr1a-cradle-aviation-museum |website=space.com |access-date=May 11, 2025}} Other Mercury-Redstone rockets are on display at the U.S. Space & Rocket Center in Huntsville and elsewhere.

File:Mg-KSC-61C-181.jpg|Fueling MR-1 in preparation for launch.

File:Mercury-Redstone 1 launch attempt S63-02651.jpg|MR-1 at the moment of ignition.

File:Project Mercury-Capsule 2 GPN-2000-000382.jpg|Mercury spacecraft #2 in an unfinished state at Lewis Hangar in 1959.

File:Mercury Spacecraft at NASA Ames.JPG|Spacecraft #2, used on both the MR-1 and MR-1A flights, on display at NASA Ames Exploration Center

File:Mercury MR1-3.jpg|alt=|Mercury-Redstone 1 at Cradle of Aviation Museum.

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{{reflist}}

{{refbegin}}

• {{cite book |title=The Mercury-Redstone Project |last1=Cassidy |first1=J. L. |last2=Johnson |first2=R. I. |last3=Leveye |first3=J. C. |last4=Miller |first4=F. E. |date=December 1964 |publisher=NASA Marshall Space Flight Center |location=Huntsville, Alabama |id=Report number NASA-TM-X-53107 |url=https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19670028606_1967028606.pdf}}
• {{cite book |title=This New Ocean: A History of Project Mercury |chapter=MR-1: The Four-Inch Flight |chapter-url=https://history.nasa.gov/SP-4201/ch9-7.htm |pages=293–297 |last1=Swenson Jr. |first1=Loyd S. |last2=Grimwood |first2=James M. |last3=Alexander |first3=Charles C. |year=1966 |series=NASA History Series |publisher=NASA History Division |location=Washington, D.C. |id=NASA SP-4201 |url=http://www.hq.nasa.gov/office/pao/History/SP-4201/cover.htm}}
• {{cite web |title=NASA NSSDC Master Catalog page |url=https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=MERCR1 |url-status=dead |publisher=National Space Science Data Center, NASA Goddard Space Flight Center |archive-url=https://web.archive.org/web/20190714132455/https://www.hq.nasa.gov/office/pao/History/SP-4201/ch9-7.htm |archive-date=2019-07-14 |access-date=2009-05-14}}

{{refend}}

• {{cite book|last=Kranz|first=Gene|title=Failure is not an option|year=2000|publisher=Berkley Books|location=New York, USA|isbn=0-425-17987-7}}

{{commonscat|Mercury-Redstone 1}}

• A series of photos from Google's LIFE magazine photo archive, showing MR-1 jettisoning the escape rocket and deploying the drogue chute: [https://web.archive.org/web/20161007023927/http://images.google.com/hosted/life/a12d228d52b43248.html], [https://web.archive.org/web/20161007023942/http://images.google.com/hosted/life/18413a2cd6863cf1.html], [https://web.archive.org/web/20161007023935/http://images.google.com/hosted/life/26ffd5921e018e26.html], [https://web.archive.org/web/20161007023820/http://images.google.com/hosted/life/307d8cc6fb56b16e.html], [https://web.archive.org/web/20161007023947/http://images.google.com/hosted/life/11bdb5ddd4e94ebc.html], [https://web.archive.org/web/20161007023826/http://images.google.com/hosted/life/c302e245b7e00658.html].
• [https://web.archive.org/web/20120506105020/http://web.mac.com/jimgerard/AFGAS/pages/mercury/merc_mr-1.html Mercury spacecraft #2 display page on "A Field Guide to American Spacecraft" website.]
• [https://www.youtube.com/watch?v=7O4V7JfeTSU YouTube video of Mercury-Redstone 1 mishap]

{{Project Mercury}}

Category:1960 in spaceflight

Category:Project Mercury

Category:1960 in the United States

Category:20th-century rocket launches

Category:Spacecraft launched in 1960

Category:Rocket launch failures