Chemistry: The Molecular Nature of Matter and Change / Edition 5 available in Hardcover
Chemistry: The Molecular Nature of Matter and Change by Martin Silberberg and Patricia Amateis has been recognized in the general chemistry market as an unparalleled classic. The revision for the eighth edition focused on continued optimization of the text. To aid in this process, we were able to use data from literally thousands of student responses to questions in LearnSmart, the adaptive learning system that assesses student knowledge of course content. The data, such as average time spent answering each question and the percentage of students who correctly answered the question on the first attempt, revealed the learning objectives that students found particularly difficult, which we addressed by revising surrounding text or adding additional learning resources such as videos and slideshows. The text still contains unprecedented macroscopic-to-microscopic molecular illustrations, consistent step-by-step worked exercises in every chapter, and an extensive range of end-of-chapter problems, which provide engaging applications covering a wide variety of interests, including engineering, medicine, materials, and environmental studies. Changes have been made to the text and applications throughout to make them more succinct, to the artwork to make it more teachable and modern, and to the design to make it more simplistic and open.
|Publisher:||McGraw-Hill Companies, The|
About the Author
Patricia Amateis graduated with a B.S. in Chemistry Education from Concord University in West Virginia and a PhD in Analytical Chemistry from Virginia Tech. She has been on the faculty of the Chemistry Department at Virginia Tech for 28 years, teaching General Chemistry and Analytical Chemistry. For the past 13 years, she has served as Director of General Chemistry, responsible for the oversight of both the lecture and lab portions of the large General Chemistry program. She has taught thousands of students during her career and has been awarded the University Sporn Award for Introductory Teaching, the Alumni Teaching Award, and the William E. Wine Award for a history of university teaching excellence. She and her husband live in Blacksburg, Virginia and are the parents of three adult children. In her free time, she enjoys biking, hiking, competing in the occasional sprint triathlon, and playing the double second in Panjammers, Blacksburg’s steel drum band.
Martin S. Silberberg received his B.S. in chemistry from the City University of New York in 1966 and his Ph.D. in chemistry from the University of Oklahoma, in 1971. He then accepted a research position at the Albert Einstein College of Medicine, where he studied the chemical nature of neurotransmission and Parkinson's disease. In 1977, Dr. Silberberg joined the faculty of Simon's Rock College of Bard (Massachusetts), a liberal arts college known for its excellence in teaching small classes of highly motivated students. As Head of the Natural Sciences Major and Director of Premedical Studies, he taught courses in general chemistry, organic chemistry, biochemistry, and nonmajors chemistry. The close student contact afforded him insights into how students learn chemistry, where they have difficulties, and what strategies can help them succeed. In 1983, Dr. Silberberg decided to apply these insights in a broader context and established a text writing and editing company. Before writing his own text, he worked on chemistry, biochemistry, and physics texts for several major college publishers. He resides with his wife and child in Massachusetts. For relaxation, he cooks, sings, and walks in the woods.
Table of Contents
1 Keys to the Study of Chemistry: Definitions, Units, and Problem-Solving2 The Components of Matter3 Stoichiometry of Formulas and Equations4 The Major Classes of Chemical Reactions5 Gases and the Kinetic-Molecular Theory6 Thermochemistry: Energy Flow and Chemical Change7 Quantum Theory and Atomic Structure8 Electron Configuration and Chemical Periodicity9 Models of Chemical Bonding10 The Shapes of Molecules11 Theories of Covalent Bonding12 Intermolecular Forces: Liquids, Solids, and Phase Changes13 The Properties of Mixtures: Solutions and Colloids
Interchapter: A Perspective on the Properties of the Elements
14 Periodic Patterns in the Main-Group Elements: Bonding, Structure, and Reactivity15 Organic Compounds and the Atomic Properties of Carbon16 Kinetics: Rates and Mechanisms of Chemical Reactions17 Equilibrium: The Extent of Chemical Reactions18 Acid-Base Equilibria19 Ionic Equilibria in Aqueous Systems20 Thermodynamics: Entropy, Free Energy, and Reaction Direction21 Electrochemistry: Chemical Change and Electrical Work22 The Elements in Nature and Industry23 The Transition Elements and Their Coordination Compounds24 Nuclear Reactions and Their Applications
Appendix A Common Mathematical Operations in ChemistryAppendix B Standard Thermodynamic Values for Selected Substances at 298 KAppendix C Equilibrium Constants at 298 KAppendix D Standard Electrode (Half-Cell) Potentials at 298 K