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The Collected Works of Irving Langmuir: Volume 12, Langmuir, the Man and the Scientist presents the biography of Irving Langmuir, General Electric's foremost research scientist, which also includes a chronological summary of his contributions to science. Irving Langmuir, born on January 31, 1881 in New York, attends Public School No. 11 when he is seven. When he reaches 15, he attends Chestnut Hill Academy in Philadelphia. His eye troubles become worse making him wear glasses; later in life, he has cataracts removed from both eyes. He graduates with a Bachelor of Science degree in metallurgical engineering from Columbia University in 1903. In 1906, Langmuir earns his Ph.D., degree from Gottingen. He accepts an instructor position in Chemistry at Stevens Institute of Technology, New Jersey, until 1909 when joins the General Electric Company. In the next years, he receives numerous awards such as the Nichols Medal, Cannizaro Prize, Willar Gibbs Medal. In 1912, he marries Marion Mersereau. He receives the Nobel Prize for Chemistry in 1932. Among his contributions to science are an improved tungsten filament design used in incandescent bulbs, an atomic hydrogen welding torch, and theories of atomic structure and chemical bond formations. He dies of a heart attack in 1957 at the age of 76. Students, and academicians involved in history, general readers, and scientists interested in the lives of great men in science will find this book pleasant reading.
Atmospheric Phenomenon is composed of different essays written or co-authored by Irving Langmuir. The essays explore the different parts that form the atmosphere. A section of the book describes the evaporation of small spheres. Another section is about the radial flow in rotating liquids. The book also covers the light signals in aviation and navigation. An essay that describes the airplane tracks in the surface of stratus clouds is then provided. Some of the essays contained in a section in the book focus on the process of cloud seeding. This section explores such topics as smoke filters, cloud droplets, and water droplet trajectories. Another section in the book is especially devoted to the methods of cloud seeding using dry ice, silver iodide, and sodium chloride. The book can be a useful tool for aviation scientists, engineers in the field of aerial navigation, and individuals whose field of study is mainly on weather manipulation and control.
The Collected Works of Irving Langmuir: Volume 6, Structure of Matter deals with the research work of Irving Langmuir in the field of thermionics, gaseous discharge, and on the structure of atoms with emphasis on valence. Some of the paper he writes on the subject of atomic structure are: "The Structure of Atoms and the Octet Theory of Valence," "The Arrangement of Electrons in Atoms and Molecules," and "The Octet Theory of Valence and its Applications with Special Reference to Organic Nitrogen Compounds." He challenges the complexities of valence theory and atomic structure, leading to a complete change of the theoretical structure of the subject of chemistry. Langmuir also works on molecules and crystalline structures, and applies the structures of crystals to check and confirm his own theories on molecular structure. His assumption that "the force between molecules in contact can be considered as caused by a surface energy proportional to the area over which the molecules are in contact" provides a solid foundation for explaining the properties of many chemical substances. Chemists, students, academicians, scientists, and general readers interested in the lives of great men in science will find this book very informative.
The Collected Works of Irving Langmuir, Volume 5: Plasma and Oscillations is an 11-chapter text covers the extensive research study of Langmuir in the field of gas discharges. This book specifically tackles oscillations in ionized gases. The opening chapters describe the plasma-boundary phenomena and the use of a probe to separate the primary electron beam from the scattered electrons. The succeeding chapters deal with the collisions between electrons and gas molecules, oscillations in ionized gases, and the interaction of electron and positive ion space charges in cathode sheaths. These topics are followed by discussions on the general theory of the plasma of an arc and the properties of metastable atoms and electrons produced by resonance radiation in neon. The concluding chapter provides experimental evidence that the secondary electrons originate from bombardment by metastable atoms. This book is of value to physical chemists and physical chemistry researchers.
The Collected Works of Irving Langmuir, Volume 1: Low-Pressure Phenomena is a 16-chapter text that covers the early work of Irving Langmuir, beginning with his doctoral thesis written in 1906, focusing on the chemical and physical aspects of low-pressure phenomena. The first chapters deal with the dissociation of various gases produced by hot platinum wires and the convection and conduction of gases at high temperatures. The subsequent chapters consider the velocity of reactions in gases, the chemically active modification of hydrogen, and the dissociation of hydrogen into atoms. Considerable chapters are devoted to chemical reactions at very low pressures. The final chapters discuss the radiation as an important factor in chemical action and the mechanism of the catalytic action of platinum in the reactions between hydrogen and oxygen. This book is of value to physical chemists and physical chemistry researchers.
"Surface Integrity in Machining" describes the fundamentals and recent advances in the study of surface integrity in machining processes. "Surface Integrity in Machining" gathers together research from international experts in the field. Topics covered include: the definition of surface integrity and its importance in functional performance; surface topography characterization and evaluation; microstructure modification and the mechanical properties of subsurface layers; residual stresses; surface integrity characterization methods; and surface integrity aspects in machining processes. A useful reference for researchers in tribology and materials, mechanical and materials engineers, and machining professionals, "Surface Integrity in Machining" can be also used as a textbook by advanced undergraduate and postgraduate students.
The Collected Works of Irving Langmuir, Volume 11: Cloud Nucleation presents the papers written by Dr. Irving Langmuir on the study of artificial nucleation of clouds to produce precipitation. The compilation provides the study of every possible aspect of cloud and weather modification. This volume contains chapters that are devoted to the discussion of such subjects as the nucleation of clouds with dry ice; the analysis of photographic data showing the effects produced by supercooled clouds with ice nuclei; the production of rain by a chain reaction in cumulus clouds at temperatures above freezing; nucleation of clouds with silver iodide; and basic discoveries underlying weather modification. Meteorologists will find the book interesting and invaluable.
The Collected Works of Irving Langmuir, Volume 4: Electrical Discharge is a 12-chapter text that covers the fundamental and theoretical aspects of electrical discharge, with a particular emphasis on discharge in gases. The opening chapters are concerned the negative probes as being due to the random positive-ion current of the plasma and the proper space-charge with a very simple discharge tube and some miscellaneous experiments on a simple tube in which streamer type discharges were observed, as well as the effects of small amounts of tungsten in the argon discharge. These topics are followed by discussions on the verification of the Langmuir Probe-Theory; the disturbing effects of mercury vapor blast from the cathode spot on the mercury pool; and the phenomena observed in the low pressure discharges. Other chapters explore the Faraday dark space of the glow discharge and how the electrons of a beam in a plasma are given their higher velocity components. The final chapters introduce the concept of plasma oscillation. This book will be of value to electronics engineers and technical workers.