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Alkali and Alkaline earth metals (Periodic Table of the Elements) PDF

209 Pages·2010·7.1 MB·English
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PERIODIC TABLE ELEMENTS OF THE Alkali & Alkaline Earth Metals PERIODIC TABLE ELEMENTS OF THE Alkali & Alkaline Earth Metals Monica Halka, Ph.D., and Brian Nordstrom, Ed.D. ALKALI AND ALKALINE EARTH METALS Copyright © 2010 by Monica Halka, Ph.D., and Brian Nordstrom, Ed.D. All rights reserved. No part of this book may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, or by any information storage or retrieval systems, without permission in writing from the publisher. For information contact: Facts On File, Inc. An imprint of Infobase Publishing 132 West 31st Street New York NY 10001 Library of Congress Cataloging-in-Publication Data Halka, Monica. Alkali and alkaline earth metals / Monica Halka and Brian Nordstrom. p. cm. — (Periodic table of the elements) Includes bibliographical references and index. ISBN 978-0-8160-7369-6 (hardcover) ISBN 978-1-4381-3184-9 (e-book) 1. Alkalies. 2. Alkaline earth metals. 3. Periodic law. I. Nordstrom, Brian. II. Title. QD172.A4H35 2010 546'.38—dc22 2009035152 Facts On File books are available at special discounts when purchased in bulk quantities for businesses, associations, institutions, or sales promotions. Please call our Special Sales Department in New York at (212) 967-8800 or (800) 322-8755. You can find Facts On File on the World Wide Web at http://www.factsonfile.com Excerpts included herewith have been reprinted by permission of the copyright holders; the author has made every effort to contact copyright holders. The publishers will be glad to rectify, in future editions, any errors or omissions brought to their notice. Text design by Erik Lindstrom Composition by Hermitage Publishing Services Illustrations by Dale Williams Photo research by Tobi Zausner, Ph.D. Cover printed by Bang Printing, Brainerd, Minn. Book printed and bound by Bang Printing, Brainerd, Minn. Date printed: July 2010 Printed in the United States of America 10 9 8 7 6 5 4 3 2 1 This book is printed on acid-free paper. Contents Preface viii Acknowledgments xi Introduction xiii Overview: Chemistry and Physics Background xviii Part 1: Alkali Metals 1 Introduction to Alkali Metals 1 Th e Discovery and Naming of Alkali Metals 2 1 Lithium 6 Th e Astrophysics of Lithium 7 Th e Chemistry of Lithium 8 Fuel for Fusion 9 Lithium and Bipolar Disorder 11 How Lithium Can Alleviate Excess CO 12 2 Technology and Current Uses of Lithium 13 2 Sodium 16 Th e Astrophysics of Sodium 17 Th e Chemistry of Sodium 18 Th e Physics of Sodium Vapor Lamps 20 Sodium and Health 22 Technology and Current Uses of Sodium 23 3 Potassium 28 Th e Astrophysics of Potassium 29 Potassium on Earth 30 The Chemistry of Potassium 32 Potassium-Argon Dating 34 Potassium and Health 35 Technology and Current Uses of Potassium 38 4 Rubidium, Cesium, and Francium 41 The Astrophysics of Heavy Alkali Metals 43 The Chemistry of Rubidium and Cesium 45 Cesium and Atomic Clocks 46 The Human Body: No Place for These Elements 48 Rubidium and Laser-Cooling 50 Technology and Current Uses of Rubidium and Cesium 51 Part 2: Alkaline Earth Metals 53 Introduction to Alkaline Earth Metals 53 The Discovery and Naming of Alkaline Earth Metals 54 5 Beryllium 56 The Astrophysics of Beryllium 57 Beryllium on Earth 59 The Chemistry of Beryllium 61 Reducing the Critical Mass in Nuclear Weapons 62 Beryllium Is Important in Particle Accelerators 64 Technology and Current Uses of Beryllium 65 6 Magnesium 68 The Astrophysics of Magnesium 69 Magnesium on Earth 71 The Chemistry of Magnesium 72 Magnesium-Diboride Superconductors 74 The Heart of Chlorophyll 76 Technology and Current Uses of Magnesium 78 7 Calcium 81 The Astrophysics of Calcium 83 Calcium on Earth 85 The Chemistry of Calcium 86 In Mortar and Bones 89 Calcium Imaging of the Brain 90 Technology and Current Uses of Calcium 91 8 Strontium and Barium 93 The Astrophysics of Strontium and Barium 95 Strontium and Barium on Earth 96 The Chemistry of Strontium and Barium 98 A Material Harder than Diamond 101 Technology and Current Uses of Strontium and Barium 102 9 Radium 105 Radium on Earth 106 The Discovery and Naming of Radium 107 The Chemistry of Radium 110 Radium Hot Springs 111 Radioluminescence and the Paint That Kills 112 Radiopharmaceuticals—A Good Use of Radioactivity 113 Technology and Current Uses of Radium 115 10 Conclusions and Future Directions 117 Understanding Patterns and Properties in the Alkali and Alkaline Earth Metals 117 Speculations on Further Developments 118 New Physics 118 New Chemistry 119 SI Units and Conversions 121 List of Acronyms 123 Periodic Table of the Elements 124 Table of Element Categories 125 Chronology 126 Glossary 132 Further Resources 149 Index 166 Preface S peculations about the nature of matter date back to ancient Greek philosophers like Thales, who lived in the sixth century b.c.e., and Democritus, who lived in the fifth century b.c.e., and to whom we credit the first theory of atoms. It has taken two and a half millennia for natural philosophers and, more recently, for chemists and physicists to arrive at a modern understanding of the nature of elements and com- pounds. By the 19th century, chemists such as John Dalton of England had learned to define elements as pure substances that contain only one kind of atom. It took scientists like the British physicists Joseph John Thomson and Ernest Rutherford in the early years of the 20th century, however, to demonstrate what atoms are—entities composed of even smaller and more elementary particles called protons, neutrons, and electrons. These particles give atoms their properties and, in turn, give elements their physical and chemical properties. After Dalton, there were several attempts throughout Western Europe to organize the known elements into a conceptual framework that would account for the similar properties that related groups of ele- ments exhibit and for trends in properties that correlate with increases in atomic weights. The most successful periodic table of the elements was designed in 1869 by a Russian chemist, Dmitri Mendeleev. Men- deleev’s method of organizing the elements into columns grouping ele- ments with similar chemical and physical properties proved to be so practical that his table is still essentially the only one in use today. viii Preface ix While there are many excellent works written about the periodic table (which are listed in the section on further resources), recent sci- entific investigation has uncovered much that was previously unknown about nearly every element. The Periodic Table of the Elements, a six- volume set, is intended not only to explain how the elements were discovered and what their most prominent chemical and physical prop- erties are, but also to inform the reader of new discoveries and uses in fields ranging from astrophysics to material science. Students, teachers, and the general public seldom have the opportunity to keep abreast of these new developments, as journal articles for the nonspecialist are hard to find. This work attempts to communicate new scientific find- ings simply and clearly, in language accessible to readers with little or no formal background in chemistry or physics. It should, however, also appeal to scientists who wish to update their understanding of the natu- ral elements. Each volume highlights a group of related elements as they appear in the periodic table. For each element, the set provides information regarding: • the discovery and naming of the element, including its role in history, and some (though not all) of the important scien- tists involved; • the basics of the element, including such properties as its atomic number, atomic mass, electronic configuration, melt- ing and boiling temperatures, abundances (when known), and important isotopes; • the chemistry of the element; • new developments and dilemmas regarding current under- standing; and • past, present, and possible future uses of the element in sci- ence and technology. Some topics, while important to many elements, do not apply to all. Though nearly all elements are known to have originated in stars or stel- lar explosions, little information is available for some. Some others that

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