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Science sequence design (1973)

Travers, E. S. ; Helton, M. R. ; Freeman, J. E. ; [et al.]

In: CASI

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Publication Date: 2006-01-11

Description: The activities of the following members of the Navigation Team are recorded: the Science Sequence Design Group, responsible for preparing the final science sequence designs; the Advanced Sequence Planning Group, responsible for sequence planning; and the Science Recommendation Team (SRT) representatives, responsible for conducting the necessary sequence design interfaces with the teams during the mission. The interface task included science support in both advance planning and daily operations. Science sequences designed during the mission are also discussed.

Keywords: SPACE SCIENCES

Type: Its Mariner 9 Navigation; p 225-270

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2

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Observations of water vapor ions at the lunar surface. (1973)

Vondrak, R. R. ; Lindeman, R. A. ; Freeman, J. W., Jr. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The Apollo 14 Suprathermal Ion Detector Experiment observed a series of bursts of 48.6 eV water vapor ions at the lunar surface during a 14-hr period on Mar. 7, 1971. The maximum flux observed was 100 million ions per sq cm per sec per sr. These ions were also observed at Apollo 12, 183 km to the west. Evaluation of specific artificial sources including the Apollo missions and the Russian Lunokhod leads to the conclusion that the water vapor did not come from a man-made source. Natural sources exogenous to the moon such as comets and the solar wind are also found to be inadequate to explain the observed fluxes. Consequently, these water vapor ions appear to be of lunar origin.-

Keywords: SPACE SCIENCES

Type: The Moon; 8; July-Aug

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3

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Electric potential of the moon in the solar wind. (1973)

Hills, H. K. ; Freeman, J. W., Jr. ; Fenner, M. A.

In: Other Sources

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Publication Date: 2019-06-27

Description: Acceleration and detection of the lunar thermal ionosphere in the presence of the lunar electric field yields a value of at least +10 V for the lunar electric potential for solar zenith angles between approximately 20 and 45 deg and in the magnetosheath or solar wind. An enhanced positive ion flux is observed with the Apollo Lunar Surface Experiments Package Suprathermal Ion Detector Experiment when a preacceleration voltage attains certain values. This enhancement is greater when the moon is in the solar wind as opposed to the magnetosheath.

Keywords: SPACE SCIENCES

Type: Journal of Geophysical Research; 78; Aug. 1

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4

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Suprathermal ion detector experiment /lunar ionosphere detector/ (1971)

Hills, H. K. ; Freeman, J. W., Jr.

In: CASI

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Publication Date: 2019-06-27

Description: Observations from Apollo 14 suprathermal ion detector including ionospheric ion density, mass and energy spectra during venting in LM cabin, large ion cloud, and ion resulting from impacts

Keywords: SPACE SCIENCES

Type: APOLLO 14 PRELIM. SCI. REPT. 1971; P 175-183

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5

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Suprathermal ion detector experiment (lunar ionosphere detector) (1972)

Freeman, J. W., Jr. ; Hills, H. K. ; Vondrak, R. R. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The highly directional flow of energetic ions down the magnetosheath is described using three different look directions of the three Apollo 15 SIDE instruments. The effects of the interaction of the LM ascent-engine exhaust with the magnetosheath ions observed at the Apollo 15 site are discussed, and a preliminary analysis of the SIDE data for Apollo 12 and 14 is included.

Keywords: SPACE SCIENCES

Type: Lunar Geophys. Conf.; Oct 18, 1971 - Oct 21, 1971; Houston, TX; United States|NASA. Manned Spacecraft Center Apollo 15 Prelim. Sci. Rept.; 10 p

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6

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The electric potential of the moon in the solar wind (1973)

Fenner, M. A. ; Hills, H. K. ; Freeman, J. W., Jr.

In: Other Sources

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Publication Date: 2019-07-13

Description: Acceleration and detection of the lunar thermal ionosphere in the presence of the lunar electric field yields a value of approximately +10 V for the lunar electric potential for solar zenith angles between 20 and 45 deg and in the magnetosheath or solar wind. The ion number density of the thermal ionosphere observed is compatible with a surface neutral number density of about 100,000 atoms/cu cm.

Keywords: SPACE SCIENCES

Type: ESLAB Symposium; Sep 26, 1972 - Sep 29, 1972; Noordwijk; Netherlands

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7

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Lunar interactions: Abstracts of papers presented at the Conference on Interactions of the Interplanetary Plasma with the Modern and Ancient Moon (1974)

Criswell, D. R. ; Freeman, J. W.

In: CASI

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Publication Date: 2019-07-13

Description: Reviewed are the active mechanisms relating the moon to its environment and the linkage between these mechanisms and their records in the lunar sample and geophysical data. Topics: (1) large scale plasma interactions with the moon and non-magnetic planets; (2) ancient and present day lunar surface magnetic and electric fields; (3) dynamics and evolution of the lunar atmosphere; (4) evolution of the solar plasma; (5) lunar record of solar radiations; (6) non-meteoritic and meteoritic disturbance and transport of lunar surface materials; and (7) future lunar exploration.

Keywords: SPACE SCIENCES

Type: NASA-CR-140397 , Sep 30, 1974 - Oct 04, 1974; Williams Bay, WI; United States

Format: application/pdf

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Overview

8

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Water vapor, whence comest thou. (1972)

Vondrak, R. R. ; Freeman, J. W., Jr. ; Hills, H. K.

In: Other Sources

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Publication Date: 2019-07-13

Description: During a 14-hour period on Mar. 7, 1971, the Apollo 14 ALSEP suprathermal ion detector experiment (SIDE) observed an intense, prolonged series of bursts of 48.6-eV ions at the lunar surface. The SIDE mass analyzer showed the mass per unit charge of these ions to be characteristic of water vapor if singly ionized. The event was also observed by the SIDE total ion detectors (TIDs) at the Apollo 14 site and at Apollo 12 (located 183 km to the west). The TID data from SIDE 14 indicate that the energy spectrum was narrower than the 20-eV interval between energy channels. Ion spectra due to the LM exhaust gases are shown to be readily identified by the SIDE and are distinctly different in character from the spectra obtained on March 7. Detailed consideration of other possible sources of water, including the Apollo 14 CSM, leads to the conclusion that the water vapor did not come from a man-made source. Also, it is estimated that the event may have involved a quantity of water much greater than that which has been artificially introduced into the lunar environment. Consequently, it appears to be of lunar origin.

Keywords: SPACE SCIENCES

Type: Lunar Science Conference; Jan 10, 1972 - Jan 13, 1972; Houston, TX

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9

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Suprathermal ion detector results from Apollo missions. (1972)

Freeman, J. W., Jr.

In: Other Sources

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Publication Date: 2019-07-13

Description: This paper reviews briefly the knowledge of the ion environment of the moon as obtained from the Apollo Lunar Surface Experiments Package, Suprathermal Ion Detector Experiment. Topics to be discussed include: an interplanetary shock as seen from the lunar surface; bow shock and magnetosheath ions; magnetotail plasma seen during a magnetic disturbance; suprathermal ions seen during passage of the sunset and sunrise terminators; and ions associated with neutral gas clouds in the vicinity of the moon, and in particular the low energy mono-energetic spectrum of these ions. It is believed that these low energy spectra and some terminator ions can be explained by ion acceleration by the interplanetary electric field. This paper serves as catalog to references to these and other related phenomena.

Keywords: SPACE SCIENCES

Type: COSPAR, Plenary Meeting; May 10, 1972 - May 24, 1972; Madrid; Spain

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10

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Ions from the lunar atmosphere (1973)

Freeman, J. W., Jr. ; Vondrak, R. R. ; Lindeman, R.

In: Other Sources

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Publication Date: 2019-07-13

Description: The ionization of neutral atoms in the lunar atmosphere produces an ionosphere around the moon. These ions are accelerated by the interplanetary electric field and local surface fields to energies of 10 to 500 eV. The Suprathermal Ion Detector Experiment (SIDE) has been observing these ions from the lunar atmosphere. The observations have been divided into four categories based on the acceleration mechanism.

Keywords: SPACE SCIENCES

Type: Lunar Science Conference; Mar 05, 1973 - Mar 08, 1973; Houston, TX

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