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Introduction to Chemistry, Fifth edition takes a conceptual approach to introductory chemistry. Chapters open with a scenario involving real-life students to connect abstract chemical concepts to students' lives. Math is introduced on a need-to-know basis. This conceptual approach first teaches the chemistry and then shows students how to use the math with the chemistry. We recognize how important it is for students to apply chemistry to their world and have added or expanded applications - especially medical- and environment-related applications - throughout the text, marginal notes, worked examples, and end-of-chapter problems.

•Consider This features offer conceptual-in-nature questions at the end of worked examples. These questions prompt students to extend their understanding beyond the focus of the worked examples. 
•Key Concepts replace end-of-chapter summaries. Presented in outline form, they guide student discovery of the most important ideas discussed in each chapter.
•Concept Review multiple-choice questions have been added to end-of-chapter questions and problems. Because most students in an introductory chemistry course will take multiple-choice exams, these questions provide them with an outstanding practice opportunity. The conceptual nature of these questions helps students develop deeper understanding and critical thinking skills. After each question, a follow-up question provides additional practice with the analysis of multiple-choice responses.
•Four new elements have been named in the Revised Periodic Table: nihonium (Nh, element 113), moscovium (Mc, 115), tennessine (Ts, 117), and oganesson (Og, 118).
•The Art Program is considered the best in the market. To help students connect verbal descriptions to molecular-level representations, the program uses symbols and zoomed-in art to show critical phenomena at a molecular level. 
•The problem-solving approach is supported by worked Example Boxes. Problem solving in chemistry is much more than algorithmic number crunching. It involves applying principles to solve problems. Conceptual problems require students to apply their understanding of concepts instead of just an algorithm. This text emphasizes underlying concepts when discussing numerical problems within in-chapter worked examples as well as end-of-chapter problems.

The best approach to incorporating math involves development of associated math on an as-needed basis, with an emphasis on concepts that the problems are trying to illustrate. This text integrates need-to-know mathematical ideas that are important to chemists into conceptual discussions. 
•Math Toolboxes have been reworked and expanded, and now include accompanying end-of-chapter problems. 
•Toolbox Icons in the text margins point students to the appropriate review material. 
•The math reviews provided in the end-of-chapter Math Toolboxes are referenced within appropriate sections of the text.

About the Author
Pamela Marks received her B.A. in chemistry from St. Olaf College and her M.A. in inorganic chemistry at the University of Arizona. She currently is a principal lecturer in the School of Molecular Sciences at Arizona State University, where her main focus for the past 22 years has been teaching introductory chemistry, general chemistry, and chemistry for engineers. Professor Marks has been involved in improving inquiry-based learning in the general chemistry program and recently modified her introductory chemistry course to a flipped classroom format. She also has taught in the general chemistry program at the College of St. Benedict and St. John's University in Minnesota. Previous education publications include a multimedia-based general chemistry education curriculum. 

James Birk received a B.A. in chemistry from St. John's University (Minnesota) and a Ph.D. in physical chemistry from Iowa State University. He currently is Professor Emeritus of Chemistry and Biochemistry at Arizona State University. Dr. Birk began his academic career at the University of Pennsylvania, where he was appointed to the Rhodes-Thompson Chair of Chemistry. Dr. Birk's teaching responsibilities have included general, introductory, and inorganic chemistry; chemistry for engineers; methods of teaching chemistry; and graduate courses on inorganic reaction mechanisms, chemical education, and science education. He has received awards for Distinction in Undergraduate Teaching and for Teaching Innovation, the National Catalyst Award, and the President's Medal for Team Excellence. He has been a feature editor for the Journal of Chemical Education. Dr. Birk's research has focused on visualization, inquiry-based instruction, and misconceptions (chemistry concept inventory).

Richard Bauer completed his B.S. in chemistry at Saginaw Valley State University (Michigan) and his M.A. and Ph.D. in chemistry education at Purdue University. He is currently the faculty head for science, mathematics, and social science at the Downtown Phoenix Campus of Arizona State University. As general chemistry coordinator on the Tempe campus, Dr. Bauer implemented an inquiry-based laboratory program. He has taught introductory and general chemistry courses for more than 25 years as well as a methods of chemistry teaching course. Dr. Bauer enjoys the diversity of students enrolled in introductory chemistry and is interested in student visualization of abstract, molecular-level concepts; teaching assistant training; and methods of secondary-school chemistry teaching.

Introduction to Chemistry 5th Edition 1260162095

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    • ISBN-10:1259911144
    • ISBN-13:978-1259911149
    • Edition:5th
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