Ranger 7
Mission type | Lunar impactor | ||||
---|---|---|---|---|---|
Operator | NASA | ||||
COSPAR ID | 1964-041A | ||||
SATCAT no. | 842 | ||||
Mission duration | 65.5 hours | ||||
Spacecraft properties | |||||
Manufacturer | Jet Propulsion Laboratory | ||||
Launch mass | 365.6 kg[1] | ||||
Dimensions | 1.52 m × 2.51 m (5.0 ft × 8.2 ft) | ||||
Power | 200 W | ||||
Start of mission | |||||
Launch date | July 28, 1964, 16:50:07 LC-12 | UTC||||
Lunar impactor | |||||
Impact date | July 31, 1964, 13:25:48.82 | UTC||||
Impact site | 10°38′02″S 20°40′38″W / 10.6340°S 20.6771°W[2] (Between Mare Nubium and Oceanus Procellarum) | ||||
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Ranger 7 was the first
The spacecraft carried six television
Aftermath of Ranger 6 and preparation for Ranger 7
Although NASA had attempted to put a positive spin on Ranger 6 on the grounds that everything except the camera system had worked well, William Coughlin, editor of the publication Missiles and Rockets, called it a "one hundred percent failure" and JPL's record thus far was "a disgrace". The mission had not been a complete failure, but Coughlin was not alone in his opinion that Jet Propulsion Laboratory in Pasadena, a nonprofit laboratory and extension of the California Institute of Technology (Caltech), was a "soft" academic environment without the drive or ambition needed to make the missions succeed. He considered Ranger a "loser" and for a while, anyone at NASA involved in the Ranger program tried to conceal it. It was also being said that sending probes up for the sole purpose of returning images was pointless and accomplished nothing that Apollo could not also achieve.[5]
Shortly after
The
The full report as submitted to Congress came under criticism from several people at NASA, noting that, although the cameras lacked redundancy, any one of dozens of failure modes in the booster or spacecraft could also result in failure to return any TV images. In regards to the lack of adequate prelaunch testing, they brought up the incident back in 1961 with Ranger 1 deploying its solar panels during a ground test and that ground tests with full 60 W power had been discontinued on the Block II probes for fear of accidentally igniting the midcourse correction engine on the pad and destroying the entire launch vehicle in the process.
RCA also promised to look into workmanship standards at their main plant in Hightstown, New Jersey, when examination of a sealed Ranger module discovered a plastic bag with screws and washers inside. Although there was suspicion that this had been done by a disgruntled employee, it was far more probable that someone had done it by accident.
Since no obvious reason for the malfunction could be found in the cameras themselves, investigation next shifted to the electrical umbilical on the payload fairing. This umbilical connector would normally be attached on the ground to permit testing of the Ranger's subsystems and only a thin hinged door covered it during launch. One of the pins on the connector was "hot" and could easily be bridged, transferring a
Bratenahl persisted and studied more film of Atlas launches with the frames enlarged, which revealed light flashes in the post-staging plume. Another phone call to Convair revealed that 67 pounds (30 kg) of RP-1 were also dumped during staging and that the Atlas's sustainer engine exhaust ignited the propellant cloud, producing these flashes. Since the umbilical door on the payload shroud was only held in place with a thin latching mechanism, hot gases from igniting propellant could have contacted the electrical connector and caused a short. The inadvertent activation of the telemetry system during launch had occurred almost simultaneous with booster jettison at T+140 seconds. With that, the book could be closed on the cause of Ranger 6's failure.
Among the changes made for Ranger 7 included new procedures to apply full power testing to the spacecraft off of the launch pad, where there was no risk of the midcourse correction engine activating on top of a fully fueled Atlas-Agena.
Jet Propulsion Laboratory had originally wanted to have Ranger 7 impact in the same general area as Ranger 6 so the impact crater could be imaged, but lighting conditions during July would not be favorable so they instead decided to go for a little-known area 11 degrees south of the
Spacecraft design
Rangers 6, 7, 8, and 9 were called Block 3 versions of the Ranger spacecraft. The spacecraft consisted of a hexagonal aluminum frame base 1.5 metres (4 ft 11 in) across on which was mounted the propulsion and power units, topped by a truncated conical tower which held the TV cameras. Two solar panel wings, each 739 millimetres (29.1 in) wide by 1,537 millimetres (60.5 in) long, extended from opposite edges of the base with a full span of 4.6 metres (15 ft), and a pointable high-gain dish antenna was hinge mounted at one of the corners of the base away from the solar panels. A cylindrical quasi-omnidirectional antenna was seated on top of the conical tower. The overall height of the spacecraft was 3.6 metres (12 ft).[4]
Propulsion for the mid-course trajectory correction was provided by a 224 N thrust monopropellant hydrazine engine with four jet-vane vector control. Orientation and attitude control about three axes was enabled by twelve nitrogen gas jets coupled to a system of three gyros, four primary Sun sensors, two secondary Sun sensors, and an Earth sensor. Power was supplied by 9,792 silicon solar cells contained in the two solar panels, giving a total array area of 2.3 square metres (25 sq ft)and producing 200 W. Two 1200 watt-hour AgZnO batteries rated at 26.5 V with a capacity for 9 hours of operation provided power to each of the separate communication/TV camera chains. Two 1000 watt-hour AgZnO batteries stored power for spacecraft operations.[4]
Communications were through the quasiomnidirectional low-gain antenna and the parabolic
Mission profile
On July 6, Ranger 7 completed its ground testing and was stacked atop the booster. On July 9, a NASA committee met and deemed the booster and spacecraft fully ready for launch, which was targeted for the 27th.[4]
The first countdown on July 27 failed due to a defective battery in the Atlas and a problem with the ground guidance equipment. The next day, all went smoothly and Ranger 7 lifted off from LC-12 at 12:50 PM EST. The weather was clear and cloudless on this launch and Atlas staging was observed by tracking cameras. The expected propellant cloud enveloped the booster, but no anomalous events occurred this time. Thirty minutes after liftoff, the Agena restarted to boost Ranger 7 on a trajectory towards the Moon.
The flight trajectory for Ranger 7 was quite accurate, but a short midcourse correction would still be needed to ensure impact in the Sea of Storms instead of the far side of the Moon, which was carried out early on the morning of July 29. The warmup period for the TV cameras would be performed earlier and made shorter than on Ranger 6. Out of fear of jeopardizing the mission, ground controllers decided that the probe's orientation was acceptable enough and they would not risk maneuvering with the attitude control thrusters to get into a better angle. At 6:09 AM PDT, the first video imagery reached Earth.
As Ranger 7 sped towards the surface of
The photographs returned from the probe found that the Moon was most likely "very craggy and rocky with debris everywhere". After speaking to the media, NASA officials were peppered with the obvious question – did the Moon have a surface solid enough that humans could safely land on it? Geologist Gerard Kuiper replied that, judging by the images, it seemed likely that at least some of the Moon was smooth enough to land a spacecraft on. However, the actual hardness of the surface couldn't be determined with certainty until a soft landing was made. Nonetheless, Ranger 7's images did seem to suggest that it was solid enough.
Ranger 7 reached the Moon on July 31. The F-channel began its one-minute warm-up 18 minutes before impact. The first image was taken at 13:08:45 UT at an altitude of 2110 km. Transmission of 4,308 photographs of excellent quality occurred over the final 17 minutes of flight. The final image taken before impact has a resolution of 0.5 meters. The spacecraft encountered the lunar surface in direct motion along a hyperbolic trajectory, with an incoming asymptotic direction at an angle of -5.57 degrees from the lunar equator. The orbit plane was inclined 26.84 degrees to the lunar equator. After 68.6 hours of flight, Ranger 7 impacted in an area between Mare Nubium and Oceanus Procellarum (subsequently named Mare Cognitum) at 10°38′02″S 20°40′38″W / 10.6340°S 20.6771°W.[2] (The impact site is listed as 10.63 S, 20.66 W in the initial report "Ranger 7 Photographs of the Moon".) Impact occurred at 13:25:48.82 UT at a velocity of 2.62 km/s. The spacecraft performance was excellent and the success of the mission finally brought a turnaround in NASA's fortunes after the endless string of lunar probe failures since 1958.[4]
Ranger 7 is credited for beginning the "peanut" tradition at NASA command stations. On the success of Ranger 7, someone in the control room was noticed eating peanuts. Since 1964, control rooms ceremonially open a container of peanuts for luck and tradition.[6]
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First image, about 17 minutes before impact. Features: The large crater at center right isAlphonsus.
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Altitude: 830 miles (1,340 km). Features: Image of Guericke crater, taken 8.5 minutes before impact.
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Altitude: 235 miles (378 km). Features: Note increase in detail of Bonpland H and its twin crater (to left of Bonpland H).
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Altitude: 85 miles (137 km). Features: Cluster of secondary craters in part of a ray of the Crater Tycho becomes distinct.
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Altitude: 34 miles (55 km). Features: Greater resolution of craters in outlying ray of Tycho.
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Altitude: 11 miles (18 km). Features: Crater near upper left of area outlined in white.
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Altitude: 3.6 miles (5.8 km). Features: Angular rock mass in crater at upper left. Preliminary study indicates the mass to be several separate chunks.
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Photo taken by Ranger 7 at 3,000 foot (910 m) altitude shows area 100 feet (30 m) in each side.
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Last picture by Ranger 7, taken about 1,600 feet (490 m) above the moon, reveals features as small as 15 inches (0.38 m) across. Receiver noise pattern at right results from spacecraft crash on the moon while transmitting.
See also
References
- ^ a b "Ranger 7". NASA's Solar System Exploration website. Retrieved December 1, 2022.
- ^ a b Samuel Lawrence (September 24, 2013). "LROC Coordinates of Robotic Spacecraft - 2013 Update". lroc.sese.asu.edu. Archived from the original on May 9, 2015. Retrieved June 9, 2015.
- ^ Calvin J. Hamilton. "Ranger 7". Views of the Solar System.
- ^ a b c d e f "National Space Science Data Center - Ranger 7". National Air and Space Administration. Retrieved December 3, 2022.
- ^ Cargill Hall, R. (1977), Lunar impact: A history of Project Ranger (PDF), NASA, retrieved December 3, 2022
- ^ Dina Spector (August 4, 2012). "NASA's Unlikely 'Good-Luck' Charm Comes In A Jar". Business Insider.
External links