The only work to date to collect data gathered during the American and Soviet missions in an accessible and complete reference of current scientific and technical information about the Moon.
From the bestselling author of The Accidental Billionaires and Bringing Down the House, this is the incredible true story of how a college student and two female accomplices stole some of the rarest objects on the planet—moon rocks—from an "impregnable" high-tech vault. But breaking into a highly secure laboratory wasn't easy. Thad Roberts, an intern in a prestigious NASA training program, would have to concoct a meticulous plan to get past security checkpoints, an electronically locked door with cipher security codes, and camera-lined hallways even before he could get his hands on the 600-pound safe. And then how was he supposed to get it out? And what does one do with an item so valuable that it's illegal even to own? With his signature high-velocity style, Mezrich reconstructs the outlandish heist and tells a story of genius, love, and duplicity that reads like a Hollywood thrill ride.
Moon Rocks and Minerals compiles the important findings that have resulted from the first study of the Apollo 11 lunar rocks, including preliminary data on Apollo 12 lunar samples. The compiled study samples and proposals on the lunar rocks are categorized into four general categories— mineralogy and petrology, chemical and isotope analyses, physical properties, and bioscience and organic geochemistry. In these categories, this book specifically discusses the types and mineralogy of lunar rocks and soils; chemistry of samples brought by Apollo 11 and 12; and experimental studies and origin of the lavas. The age of the lunar rocks, isotope studies, cosmic ray, and solar wind effects and origin of the moon are also deliberated. This text also covers the examination of lunar samples for the presence of biochemical organic compounds in the general context of the possibility of extraterrestrial life. This publication is beneficial to scientists of disciplines such as geochemistry, cosmochemistry, mineralogy, and geophysics.
This revolutionary new book is written for practical amateur astronomers who not only want to observe, but want to know the details of exactly what they are looking at. The Moon is the most commonly observed of all astronomical objects. This is the first book to deal equally with the Moon itself - its formation, geology, and history - as well as the practical aspects of observation. The concept of the book - and of the series - is to present an up-to-date detailed description of the Moon, including its origins, history, and geology (part one); and then (part two) to consider how best to observe and record it successfully using commercially-available equipment. The Moon and How to Observe It is a mine of information for all levels of amateur observers, from the beginner to the experienced
FROM ITS CREATION BY GOD TO ITS PERFECT SIZE, DETAILS ARE REVEALED ABOUT THE MOON'S UNIQUE CONNECTION TO THE SEASON'S TIDES, ANIMAL LIFECYCLES, AND ROLE AS EARTH'S PROTECTIVE SHIELD. WELL-KNOWN AND HIGHLY RESPECTED CREATION SCIENTISTS DON DEYOUNG AND JOHN WHITCOMB SHARE THEIR KNOWLEDGE IN AN EASY-TO-COMPREHEND FORMAT. NEWLY REVISED AND EXPANDED, THE BOOK IS A DEFINITIVE WORK ON EARTH'S CLOSEST NEIGHBOR AND ITS CONTINUING FASCINATION AMONG EXPLORERS AND RESEARCHERS.
Much has happened in the world in the 17 years since the first New Views of the Moon was published as volume 60 of the Mineralogical Society of America in 2006. An exciting new era of lunar exploration has begun, including the promise of resuming human lunar exploration, exploring the lunar Poles, and missions to many other high-priority science targets. It is fitting, therefore, to now summarize the current state of knowledge to the degree possible at a time when advancements in knowledge of the Moon are proceeding at a breakneck pace. Therefore, during this period of unprecedented lunar exploration activity, and as we continue to rebound from a global pandemic, we now happily announce this New Views of the Moon 2 volume summarizing the advances in lunar science and exploration since 2006. The Steering Committee is eternally grateful to all contributors and especially the chapter leads, and to Professor Makiko Ohtake (University of Aizu, Japan) and Dr. David Blewett (Johns Hopkins University Applied Physics Laboratory, U.S.A.) for organizing the New Views of the Moon 2 Electronic Annex. We deeply appreciate the hard work and dedication of everyone involved in the production of this volume, especially Rachel Russell and Ian Swainson at the Mineralogical Society of America. This volume helps to frame our knowledge and expectations for an exciting future of lunar science and exploration and the new discoveries to be made. Having humans return to the Moon now seems more likely than it ever has since the last humans left the Moon on 14 December 1972.