Thermal characteristics of the moon / edited by John W. Lucas.

Format:

Book

Contributor:

Lucas, John W.

Series:

Progress in astronautics and aeronautics ; v. 28.

Progress in astronautics and aeronautics ; v. 28

Language:

English

Subjects (All):

Moon--Temperature and radiation.

Moon.

Physical Description:

xiii, 340 p. : ill.

Edition:

1st ed.

Place of Publication:

Cambridge, Mass. : MIT Press, [1972]

Language Note:

English

Summary:

Volume 28 of Progress in Astronautics and Aeronautics,Martin Summerfield, Series Editor The papers included in this volume were especially prepared to bring to the attention of the scientific community the important discoveries that have been made in recent times concerning the thermal characteristics of the moon. From a knowledge of the thermal characteristics, deductions concerning lunar structure and the history of the formation of the moon are facilitated. Written by leading lunar and thermal authorities, the papers are grouped into four parts, covering measurements made from earth, measurements made on the moon, studies of material brought to earth from the moon, and an overall historical survey of the moon's interior from a thermal standpoint. The section on earth-based measurements includes studies of the infrared moon, by Richard W. Shorthill; microwave emissions from the moon, by Duane O. Muhleman; and the radar mapping of lunar surface roughness, by Thomas W. Thompson and Sidney H. Ziske. The second section, "In Situ Surface Measurements," contains papers treating thermal characteristics based on Surveyor data, by Leonard D. Stimpson and John W. Lucas; surface temperatures based on Apollo 11 data, by Paul J. Hickson; and the development of an in situ thermal conductivity measurement for the lunar heat flow experiment, by Marcus G. Langseth, Jr., Elisabeth M. Drake, and Daniel Nathanson. Section Three, "Thermal Characteristics of Lunar-Type Materials," presents studies of the thermal properties of granulated materials, by Alfred E. Wechsler and Peter E. Glaser; the thermal properties of material returned by the Apollo 11 and Apollo 12 missions, by Ki-iti Horai and Gene Simmons; and the thermal characteristics of lunar surface roughness, by Donald F. Winter, John A. Bastin, and David A. Allen. The final section on geophysical interpretation consists of a single important paper on the thermal history of the lunar interior, by Ray T. Reynolds, Peter E. Fricker, and Audrey L. Summers.

Contents:

Cover

Title

Copyright

Contents

Preface

Editorial Committee for Volume 28

1. Earth-Based Measurements

a. The Infrared Moon: A Review

b. Microwave Emission from the Moon

c. Radar Mapping of Lunar Surface Roughness

2. In Situ Surface Measurements

a. Lunar Thermal Aspects from Surveyor Data

b. Lunar Surface Temperatures from Apollo 11 Data

c. Development of an In Situ Thermal Conductivity Measurement for the Lunar Heat Flow Experiment

d. The Apollo 15 Lunar Heat Flow Measurement

3. Thermal Characteristics of Lunar-Type Materials

a. Thermal Properties of Granulated Materials

b. Thermal Property Measurements on Lunar Material Returned by Apollo 11 and 12 Missions

c. Thermal Characteristics of Lunar Surface Roughness

4. Geophysical Interpretation

a. Thermal History of the Moon

Index to Contributors to Volume 28

A

B

C

D

F

G

H

K

L

M

N

R

S

T

W

Z.

Notes:

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references and index.

ISBN:

1-60086-502-X

1-60086-283-7

OCLC:

922978832