Explorer 17
Explorer-17 satellite
NamesAE-A
Atmosphere Explorer-A
S6
Mission typeEarth science
OperatorNASA
COSPAR ID1963-009A
SATCAT no.00564
Mission duration98 days (achieved)
Spacecraft properties
SpacecraftExplorer XVII
Spacecraft typeAtmosphere Explorer-A
BusAE
ManufacturerGoddard Space Flight Center
Launch mass183.7 kg (405 lb)
Dimensions0.95 m (3 ft 1 in) diameter
PowerNickel-cadmium batteries
Start of mission
Launch date3 April 1963, 02:00:02 GMT
RocketDelta-B (Thor 357 / Delta 017)
Launch siteCape Canaveral, LC-17A
ContractorDouglas Aircraft Company
Entered service3 April 1963
End of mission
Last contact10 July 1963
Decay date24 November 1966
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude255 km (158 mi)
Apogee altitude916 km (569 mi)
Inclination57.60°
Period96.39 minutes
Instruments
Langmuir Probes
Mass spectrometers
Pressure gauges
Explorer program
 

Explorer 17 (also known as Atmosphere Explorer-A (AE-A) and S6) was a NASA satellite, launched at Cape Canaveral from LC-17B on a Delta B launch vehicle, on 3 April 1963, at 02:00:02 GMT, to study the Earth's upper atmosphere. It was the first satellite of five "Atmosphere Explorer".

Mission

The successful launch and operating of Explorer 17 allowed scientists for the first time to obtain instantaneous atmospheric density measurements using several independent measuring systems, to measure the atmosphere during a single day under nearly constant local time conditions and geomagnetic activity, and to compare direct measurements of density with those inferred from measurements of perturbations in the satellite period orbit.[1]

Spacecraft

Scheme of Explorer 17

Explorer 17 was a spin-stabilized sphere 0.95 m (3 ft 1 in) in diameter. The spacecraft was vacuum sealed in order to prevent contamination of the local atmosphere.

Instruments

Explorer 17 carried four pressure gauges for the measurement of total neutral particle density, two mass spectrometers for the measurement of certain neutral particle concentrations, and two electrostatic probes for ion concentration and electron temperature measurements. Battery power failed on 10 July 1963. Three of the four pressure gauges and both electrostatic probes operated normally. One spectrometer malfunctioned, and the other operated intermittently.[2]

Experiments

Langmuir Probes

The Explorer 17 experiment payload included two independent Langmuir probe systems. One of the sensors was used to provide measurements of the positive ion density, and the other measured electron temperature. Each system used a two-element sensor consisting of an outer cylindrical guard electrode 10 cm (3.9 in) long which was concentric with an inner collector electrode 0.056 cm (0.022 in) in diameter and 23 cm (9.1 in) long. The potentials of the electrodes were varied with respect to the satellite shell. The electron temperature probe was swept at a rate of 10 sweeps per second over two different voltage intervals, 0 to 0.75 V and 0 to 1.5 V. The ion density probe was swept from -3 to +2 Volts in 2 seconds. The currents to the collectors were measured and telemetered. The ion concentration and electron temperature could be determined from the current versus voltage information. The experiment operated normally from launch until 10 July 1963, when the spacecraft batteries failed.[3]

Mass Spectrometers

Two identical double-focusing magnetic mass spectrometers were used to measure the concentrations of the major neutral particle constituents of the upper atmosphere, namely, atomic and molecular oxygen, atomic and molecular nitrogen, helium, and water vapor. These neutral particles were ionized by electron bombardment. Measurements of the six different ion currents and the total current were made sequentially for 4 seconds in high sensitivity and 4 seconds in low sensitivity. A period of 64 seconds was required for the entire measurement cycle. Included in the cycle was an operation to correct any DC drift of the zero voltage level in the output signal. One spectrometer produced useless data due to a malfunction. The other detector system experienced intermittent degeneration of the amplifier output, and, consequently, the data were good only during certain periods. This degeneration was not a result of instrument malfunction but of an unexpected spacecraft attitude which oriented the sensor toward the Sun and caused it to overheat.[4]

Pressure Gauges

Two Redhead (cold cathode) and two Bayard-Alpert (hot filament) ionization vacuum gauges were used to measure the neutral particle density and ambient pressure of the upper atmosphere between 260 km (160 mi) and 900 km (560 mi). The pressure gauges were operated for 4-minutes periods when the satellite was within range of a ground telemetry station. The neutral particles were ionized by electron bombardment, and the resulting ion currents were detected and converted to voltages suitable for telemetry. These two types of sensors together were capable of measuring over the pressure range 10.E-4 torr (10.E12 molecules/cc) to 10.E-11 torr. One Bayard-Alpert gauge suffered a loss in sensitivity, and no useful data were obtained from it. The remaining three gauges operated normally.[5]

Orbital decay

The spacecraft decayed from orbit after 1,325 days on 24 November 1966.

See also

References

  1. Newton, George P.; Horowitz, Richard; Priester, Wolfgang (July 1965). "Atmospheric Density and Temperature Variations from the Explorer XVII Satellite and a Further Comparison with Satellite Drag". Planetary and Space Science. 13 (7): 599–616. Bibcode:1965P&SS...13..599N. doi:10.1016/0032-0633(65)90042-5.
  2. "Display: Explorer 17 (AE-A) 1963-009A". NASA. 28 October 2021. Retrieved 6 November 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  3. "Experiment: Langmuir Probes". NASA. 28 October 2021. Retrieved 6 November 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  4. "Experiment: Mass Spectrometers". NASA. 28 October 2021. Retrieved 6 November 2021. Public Domain This article incorporates text from this source, which is in the public domain.
  5. "Experiment: Pressure Gauges". NASA. 28 October 2021. Retrieved 6 November 2021. Public Domain This article incorporates text from this source, which is in the public domain.
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