![]() ![]() Statistical, and molecular approaches, and is especially designed Introduction to modern thermodynamicsintegrates classical, Schieber Frontmatter More information © in this web service Cambridge University Pressīuilding up gradually from first principles, this unique Cambridge University Press 978-2-6 - Molecular Engineering Thermodynamics Juan J. He has been a visiting professor at universities in Europe and Asia, holds numerous teaching awards, and was the 2004 Hougen Scholar at the University of Wisconsin, Madison. Schieber is Professor of Chemical Engineering in the Department of Chemical and Biological Engineering and the Department of Physics, and Director of the Center for Molec- ular Study of Condensed Soft Matter, at the Illinois Institute of Technology. He has won several teaching awards, has been awarded a Presidential Early Career Award in Science and Engineering from the NSF, and is a Fellow of the APS, the American Academy of Arts and Sciences, and the Mexican Academy of Sciences. de Pablo is the Liew Family Professor at the Institute for Molecular Engineering, University of Chicago, and a former Director of the Materials Science and Engineering Cen- ter on Structured Interfaces, University of Wisconsin, Madison. All the necessary mathematical background, plus resources summarizing commonly used symbols, useful equations of state, microscopic balances for open systems, and links to useful online tools and datasets.More than 300 carefully tailored homework problems, designed to stretch and extend students’ understanding of key topics, accompanied by an online solution manual for instructors.Over 80 detailed worked examples, covering a broad range of scenarios such as fuel cell efficiency, DNA/protein binding, semiconductor manufacturing, and polymer foaming, emphasizing the practical real-world applications of thermodynamic principles.In addition to covering traditional problems in engineering thermodynamics in the context of biology and materials chemistry, students are introduced to the thermodynamics of DNA, proteins, polymers, and surfaces. ![]() ![]() Molecular Engineering Thermodynamics Building up gradually from first principles, this unique introduction to modern thermodynamics integrates classical, statistical, and molecular approaches, and is especially designed to support students studying chemical, biochemical, and materials engineering. ![]()
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