Surveyor 7

Surveyor 7
Spacecraft properties
Surveyor model on Earth

Mission type	Lunar lander
Operator	NASA
COSPAR ID	1968-001A
SATCAT №	03091
Mission duration	65 hours

Manufacturer	Hughes Aircraft
Launch mass	1,039 kilograms (2,291 lb)
Landing mass	305.7 kilograms (674 lb) after landing

Start of mission
Launch date	January 7, 1968, 06:30:00 (1968-01-07UTC06:30Z) UTC
Rocket	Atlas SLV-3C Centaur-D
Launch site	Cape Canaveral LC-36A

End of mission
Last contact	February 21, 1968 (1968-02-22)

Lunar lander
Landing date	January 10, 1968, 01:05:36 UTC
Landing site	41°01′S 11°25′W / 41.01°S 11.41°W / -41.01; -11.41

Surveyor 7 was the seventh and last lunar lander of the American unmanned Surveyor program sent to explore the surface of the Moon. A total of 21,091 pictures were transmitted to Earth.

Surveyor 7 was the fifth and final spacecraft of the Surveyor series to achieve a lunar soft landing. The objectives for this mission were to perform a lunar soft landing (in an area well removed from the maria to provide a type of terrain photography and lunar sample significantly different from those of other Surveyor missions); obtain postlanding TV pictures; determine the relative abundances of chemical elements; manipulate the lunar material; obtain touchdown dynamics data; and obtain thermal and radar reflectivity data. This spacecraft was similar in design to the previous Surveyors, but it carried more scientific equipment including a television camera with polarizing filters, a surface sampler, bar magnets on two footpads, two horseshoe magnets on the surface scoop, and auxiliary mirrors. Of the auxiliary mirrors, three were used to observe areas below the spacecraft, one to provide stereoscopic views of the surface sampler area, and seven to show lunar material deposited on the spacecraft. The spacecraft landed on the lunar surface on January 10, 1968, on the outer rim of the crater Tycho. Operations of the spacecraft began shortly after the soft landing and were terminated on January 26, 1968, 80 hours after sunset. On January 20, while the craft was still in daylight, the TV camera clearly saw two laser beams aimed at it from the night side of the crescent Earth, one from Kitt Peak National Observatory, Tucson, Arizona, and the other at Table Mountain at Wrightwood, California.^[1]^[2]

Operations on the second lunar day occurred from February 12 to 21, 1968. The mission objectives were fully satisfied by the spacecraft operations. Battery damage was suffered during the first lunar night and transmission contact was subsequently sporadic. Contact with Surveyor 7 was lost on February 21, 1968.

It was planned to be visited by the cancelled Apollo 20 mission, however Skylab and subsequent budget cuts stopped this from happening.

Photomosaic of a panorama taken by Surveyor 7 of its landing site.

Surveyor 7 was the first probe to detect the faint glow on the lunar horizon after dark that is now thought to be light reflected from electrostatically levitated moon dust.^[3]

Science instruments

Television

The TV camera consisted of a vidicon tube, 25 and 100 mm focal length lenses, shutters, polarizing filters, and iris mounted nearly vertically and surmounted by a mirror that could be adjusted by stepping motors to move in both azimuth and elevations. The polarizing filters served as analyzers for the detection of measurements of the linearly polarized component of light scattered from the lunar surface. The frame by frame coverage of the lunar surface provided a 360 deg azimuth view and an elevation view from approximately +90 deg above the plane normal to the camera A axis to -60 deg below this same plane. Both 600 line and 200 line modes of operation were used. The 200 line mode transmitted over an omnidirectional antenna and scanned one frame each 61.8 seconds. A complete video transmission of each 200 line picture required 20 seconds and utilized a bandwidth of 1.2 kHz. Most transmissions consisted of 600 line pictures, which were telemetered by a directional antenna. The frames were scanned each 3.6 seconds. Each frame required nominally one second to be read from the vidicon and utilized a 220 kHz bandwidth for transmission. The dynamic range and sensitivity of this camera were slightly less than those on the Surveyor 6 camera. Resolution and quality were excellent. The television images were displayed on a slow scan monitor coated with a long persistency phosphor. The persistency was selected to optimally match the nominal maximum frame rate. One frame of TV identification was received for each incoming TV frame and was displayed in real time at a rate compatible with that of the incoming image. These data were recorded on a video magnetic tape recorder and on 70 mm film. The camera transmitted 20,961 pictures during the first lunar day, January 10 to January 22, 1968. From February 12 to February 14, the camera was operated in the 200 line mode because of loss of horizontal sweep in the 600 line mode. During the second lunar day, 45 pictures were transmitted before loss of power caused suspension of camera operation.

Panorama of the surface
An area 350 meters northeast of the spacecraft showing a large block about 5 meters across and 2 meters high
Spotted rock 25 cm across, about 2 meters from Surveyor 7
Vesicular fragment about 35 cm across, about 7 meters from Surveyor 7

Alpha-Scattering Surface Analyzer

The alpha-scattering surface analyzer was designed to measure directly the abundances of the major elements of the lunar surface. The instrumentation consisted of an alpha source (curium 242) collimated to irradiate a 10 mm diameter opening in the bottom of the instrument where the sample was located and two parallel but independent charged particle detector systems. One system, containing two sensors, detected the energy spectra of the alpha particles scattered from the lunar surface, and the other, containing four sensors, detected energy spectra of the protons produced via reaction (alpha and proton) in the surface material. Each detector assembly was connected to a pulse height analyzer. A digital electronics package, located in a compartment on the spacecraft, continuously telemetered signals to earth whenever the experiment was operating. The spectra contained quantitative information on all major elements in the samples except for hydrogen, helium, and lithium. The experiment provided 46 hours of data accumulated from three lunar surface sample measurements. These measurements were of a portion of undisturbed local lunar surface, a lunar rock, and an extensively trenched area of the lunar surface. Data were obtained during the first and second lunar days, January 12 to 23, 1968, and February 13 to 21, 1968.

The alpha backscattering instrument failed to deploy properly. Mission controllers successfully used the surface soil sampler claw to push the alpha backscattering instrument into the proper position to conduct its experiments.

Soil Mechanics Surface Sampler

The soil mechanics surface sampler was designed to pick up, dig, scrape, and trench the lunar surface, and transport lunar surface material while being photographed so that the properties of the lunar surface could be determined. The sampler consisted primarily of a scoop with a container, a sharpened blade, and an electric motor to open and close the container. The flat foot of the scoop incorporated two embedded rectangular horseshoe magnets. The scoop was mounted on a pantograph arm that could be extended about 1.5 m or retracted close to the spacecraft motor drive. The arm could also be moved from an azimuth of +40 deg to -72 deg or be elevated 130 mm by motor drives. It could also be dropped onto the lunar surface under force provided by gravity and a spring. The scoop was mounted below the television camera in a position that allowed it to reach the alpha-scattering instrument in its deployed position and redeploy it to another selected location. The instrument performed 16 bearing tests, seven trenching tests, and two impact tests. It also freed the alpha-scattering instrument when it failed to deploy on the lunar surface, shaded this instrument, and moved this instrument for evaluation of other samples. Performance was flawless during 36 hours of operation between January 11 and January 23, 1968. The instrument responded to commands on February 14, 1968, which verified that it had survived the lunar night. The power system, however, was unable to support any operations.

References

↑ Notes on the laser experiment.
↑ photo of the beam from the 2-watt green argon Hughes laser at Table Mountain
↑ Strange Things Happen at Full Moon | LiveScience

External links

Surveyor program

Surveyor 1 Surveyor 2 Surveyor 3 Surveyor 4 Surveyor 5 Surveyor 6 Surveyor 7

List of missions to the Moon

← 1967 · Orbital launches in 1968 · 1969 →

Surveyor 7 \| Explorer 36 \| Kosmos 199 \| OPS 1965 \| OPS 5028 \| Kosmos 200 \| Apollo 5 \| OPS 2243 · OPS 6236 \| Kosmos 201 \| E-6LS No.112 \| Kosmos 202 \| Kosmos 203 \| OPS 7034 \| Zond 4 \| OGO-5 \| Kosmos 204 \| Kosmos 205 \| Explorer 37 \| DS-U1-Ya No.1 \| OPS 5057 \| Kosmos 206 \| OPS 4849 · OPS 7076 \| Kosmos 207 \| Kosmos 208 \| Kosmos 209 \| Kosmos 210 \| Apollo 6 \| OV1-13 · OV1-14 \| Luna 14 \| Kosmos 211 \| Kosmos 212 \| Kosmos 213 \| OPS 5165 \| Kosmos 214 \| Kosmos 215 \| Kosmos 216 \| Molniya-1 No.10 \| 7K-L1 No.7L \| Kosmos 217 \| Kosmos 218 \| Kosmos 219 \| OPS 1419 \| Kosmos 220 \| ESRO-2B \| Nimbus-B · SECOR 10 \| OPS 7869 \| Kosmos 221 \| Kosmos 222 \| Kosmos 223 \| Kosmos 224 \| Sfera No.12L \| OPS 5138 \| Kosmos 225 \| Kosmos 226 \| OPS 9341 · OPS 9342 · OPS 9343 · OPS 9344 · OPS 9345 · OPS 9346 · OPS 9347 · OPS 9348 \| Strela-2 No.3 \| Kosmos 227 \| OPS 5343 · OPS 5259 \| Kosmos 228 \| Kosmos 229 \| Explorer 38 \| Kosmos 230 \| Molniya-1 No.13 \| Kosmos 231 \| OV1-15 · OV1-16 \| Kosmos 232 \| Kosmos 233 \| Kosmos 234 \| OPS 2222 \| OPS 5187 \| OPS 5955 \| Explorer 39 · Explorer 40 \| Kosmos 235 \| ATS-4 \| ESSA-7 \| Orbiscal 1 · OV5-8 · Gridsphere 1 · Gridsphere 2 · Gridsphere B · Gridsphere R · LCS-3 · LIDOS · SECOR 11 · SECOR 12 · Radcat · P68-1 \| Kosmos 236 \| Kosmos 237 \| Kosmos 238 \| Kosmos 239 \| OPS 5247 \| Kosmos 240 \| Zond 5 \| Kosmos 241 \| OPS 0165 · OPS 8595 \| Intelsat III F-1 \| Kosmos 242 \| Kosmos 243 \| LES-6 · OV2-5 · ERS-21 · ERS-28 \| Kosmos 244 \| Kosmos 245 \| ESRO-1A \| Molniya-1 No.14 \| OPS 0964 \| Kosmos 246 \| Kosmos 247 \| Apollo 7 \| Kosmos 248 \| Kosmos 249 \| OPS 4078 \| Soyuz 2 \| Soyuz 3 \| Kosmos 250 \| Kosmos 251 \| Kosmos 252 \| OPS 1315 \| OPS 5296 \| Pioneer 9 · ERS-31 \| Zond 6 \| Kosmos 253 \| Proton 4 \| Kosmos 254 \| Kosmos 255 \| STV-1 \| Kosmos 256 \| Kosmos 257 \| OPS 6518 \| HEOS-1 \| OAO-2 \| Kosmos 258 \| OPS 4740 · OPS 7684 \| Kosmos 259 \| ESSA-8 \| Kosmos 260 \| Intelsat III F-2 \| Kosmos 261 \| Apollo 8 \| Kosmos 262

Payloads are separated by bullets ( · ), launches by pipes ( \| ). Manned flights are indicated in bold text. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in brackets.

Spacecraft missions to the Moon

Current

Orbiters	ARTEMIS Chang'e 5-T1 (Service Module) Lunar Reconnaissance Orbiter

Past

Programs	Apollo Chandrayaan Chinese Lunar Exploration Program Japanese Lunar Exploration Program Luna Lunar Orbiter Lunar Precursor Robotic Program Lunokhod Pioneer Ranger Surveyor Zond

Orbiters	Apollo 8 10 Apollo 15 Subsatellite (PFS-1) Apollo 16 Subsatellite (PFS-2) Chandrayaan-1 Chang'e 1 Chang'e 2 Clementine Explorer 35 Explorer 49 GRAIL Hiten LADEE Luna 10 11 12 14 19 22 Lunar Orbiter 1 2 3 4 5 Lunar Prospector SELENE (Kaguya, Okina & Ouna) SMART-1

Flybys	4M Apollo 13 AsiaSat-3 Cassini–Huygens Chang'e 5-T1 Galileo Geotail Luna 1 Luna 3 Mariner 10 Nozomi Pioneer 4 Pioneer 10 Ranger 5 Zond 3 5 6 7 8

Impactors	LCROSS Luna 2 MIP Ranger 4 6 7 8 9

Landers	Apollo Lunar Module x6 ALSEP (x5) and EASEP (x1) Chang'e 3 Luna 9 13 17 21 Surveyor 1 3 5 6 7

Rovers	Apollo 15 16 17 Lunokhod 1 Lunokhod 2 Yutu

Sample return	Apollo x6 Luna 16 20 24

Human landing	Apollo 11 12 14 15 16 17

Planned

Chang'e 5 (2017)
Moon Express (2017)
SpaceIL (2017)
TeamIndus / Hakuto (2017)
Chandrayaan-2 (2018)
Chang'e 4 (2018)
EM-1 (Lunar Flashlight / Lunar IceCube / LunaH-Map / SkyFire) (2018)
SELENE-2 (2018)
Astrobotic / AngelicvM / Puli (2019)
SLIM (2019)
Chang'e 6 (2020)

Proposed

Cancelled