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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.
Queen Levana is a ruler who uses her 'glamour' to gain power. but long before she crossed paths with Cinder, Scarlet, and Cress, Levana lived a very different story - a story that has never been told ... until now.
More information to be announced soon on this forthcoming title from Penguin USA
The third book in Marissa Meyer's New York Times/USA Today-bestselling Lunar Chronicles series, inspired by Rapunzel.
This investigation is concerned with ancient Egyptian calendars. Its specific focus is one of the oldest problems of the study of these calendars: the so-called problem of the month names. This work's main purpose is to suggest an explanation for the Brugsch phenomenon. The Brugsch phenomenon is one of the two main aspects of the problem of the month names. The other is the Gardiner phenomenon. No new theory is presented for the Gardiner phenomenon. As a problem, the Brugsch phenomenon is slightly older than the Gardiner Phenomenon. It has occupied center stage in the study of ancient Egyptian calendars since the early days of this endeavor. In 1870, Heinrich Brugsch, the great pioneer in this subject, wrote about the phenomenon, "Here we encounter all at once the most curious contradiction." Just recently, Rolf Krauss has described the contradiction as still "unsolved". The Brugsch phenomenon concerns the indisputable fact that the last or twelfth month of the Egyptian civil year can be named as if it were the first. Two month names are involved. The first is wp rnpt. Its meaning "opener of the year," refers to a beginning. The second month name is mswt r' "birth of Re" in hieroglyphic Egyptian, Mesore in Aramaic, Greek and Coptic. Both can otherwise also refer to New Year's Day, the quintessential calendrical beginning.
Bringing together some of the most recognized and influential researchers and scientists in various space-related disciplines, Lunar Settlements addresses the many issues that surround the permanent human return to the Moon. Numerous international contributors offer their insights into how certain technological, physiological, and psychological challenges must be met to make permanent lunar settlements possible. The book first looks to the past, covering the Apollo and Saturn legacies. In addition, former astronaut and U.S. Senator Harrison H. Schmitt discusses how to maintain deep space exploration and settlement. The book then discusses economic aspects, such as funding for lunar commerce, managing human resources, and commercial transportation logistics. After examining how cultural elements will fit into habitat design, the text explores the physiological, psychological, and ethical impact of living on a lunar settlement. It also describes the planning/technical requirements of lunar habitation, the design of both manned and modular lunar bases, and the protection of lunar habitats against meteoroids. Focusing on lunar soil mechanics, the book concludes with discussions on lunar concrete, terraforming, and using greenhouses for agricultural purposes. Drawing from the lunar experiences of the six Apollo landing missions to the many American and Soviet robotic missions to current space activities and research, this volume summarizes the problems, prospects, and practicality of enduring lunar settlements. It reflects the key disciplines, including engineering, physics, architecture, psychology, biology, and anthropology, that will play significant roles in establishing these settlements.
The genesis of modern searches for observable meteoritic phenomena on the Moon is the paper by Lincoln La Paz in Popular Astronomy magazine in 1938. In it he argued that the absence of observed fashes of meteoritic impacts on the Moon might be interpreted to mean that these bodies are destroyed as luminous meteors in an extremely rarefed lunar atmosphere. The paper suggested the possibility of systematic searches for such possible lunar meteors. With these concepts in mind, I was surprised to note a transient moving bright speck on the Moon on July 10, 1941. It appeared to behave very much as a lunar meteor would – except that the poorly estimated duration would lead to a strongly hyperbolic heliocentric velocity. Thus, the idea of systematic searches for both p- sible lunar meteors and meteoritic impact fashes was born. It was appreciated that much time might need to be expended to achieve any positive results. Systematic searches were carried out by others and myself chiefy in the years 1945–1965 and became a regular program at the newly founded Association of Lunar and Planetary Observers, or ALPO.
Lunar Gravimetry: Revealing the Far-Side provides a thorough and detailed discussion of lunar gravity field research and applications, from the initial efforts of the pre-Apollo and Luna eras to the dedicated gravity mapping experiments of the third millennium. Analysis of the spatial variations of the gravity field of the Moon is a key selenodetic element in the understanding of the physics of the Moon's interior. Remarkably, more than forty years after the initial steps in lunar exploration by spacecraft, the global gravity field still remains largely unknown, due to the limitations of standard observations techniques. As such, knowledge of the high-accuracy and high-resolution gravity field is one of the remaining unsolved issues in lunar science.
This book provides systematic descriptions of design methods, typical techniques, and validation methods for lunar soft landers, covering their environmental design, system design, sub-system design, assembly, testing and ground test validation based on the Chang’e-3 mission. Offering readers a comprehensive, systematic and in-depth introduction to the technologies used in China’s lunar soft landers, it presents detailed information on the design process for Chang’e-3, including methods and techniques that will be invaluable in future extraterrestrial soft lander design. As such, the book offers a unique reference guide for all researchers and professionals working on deep-space missions around the globe.