Description
Quantitative Understanding of Biosystems (2nd Ed.)
An Introduction to Biophysics, Second Edition
Foundations of Biochemistry and Biophysics Series
Authors: Nordlund Thomas M., Hoffmann Peter M.
Language: EnglishSubjects for Quantitative Understanding of Biosystems:
Keywords
Si Unit; Catabolite Activator Protein; biophysics; Catabolite Gene Activator Protein; biological systems; Lambda Phage DNA; microscopic structures; ATP Energy; biological physics; PDB Id; macromolecules; DNA Wrap; subcellular structures; DNA Phosphate; microorganisms; BMC Bioinformatics; quantum mechanics; DNA Bend; differential equations; ATP Molecule; photosynthesis; Laser Tweezers; discreet random walks; FJC Model; continuum diffusive motion; ATP Synthase; statistical mechanics; Persistence Length; three-dimensional geometry; Reaction Theory; biomolecules; Thylakoid Membrane; biopolymers; Entropic Free Energy; thermodynamics; FJC; nanobiology; Base Pairs; ATP Hydrolysis; Tip Surface Distance; Force Distance Measurements; Bending Energy; Wave Function
57.55 €
In Print (Delivery period: 14 days).
Add to cart the book of Nordlund Thomas M., Hoffmann Peter M.Publication date: 03-2021
· 21x28 cm · Paperback
166.30 €
In Print (Delivery period: 14 days).
Add to cart the book of Nordlund Thomas M., Hoffmann Peter M.Publication date: 05-2019
· 21x28 cm · Hardback
Description
/li>Contents
/li>Readership
/li>Biography
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Praise for the prior edition
"The author has done a magnificent job? this book is highly recommended for introducing biophysics to the motivated and curious undergraduate student."
?Contemporary Physics
"a terrific text ? will enable students to understand the significance of biological parameters through quantitative examples?a modern way of learning biophysics." ?American Journal of Physics
"A superb pedagogical textbook? Full-color illustrations aid students in their understanding" ?Midwest Book Review
This new edition provides a complete update to the most accessible yet thorough introduction to the physical and quantitative aspects of biological systems and processes involving macromolecules, subcellular structures, and whole cells. It includes two brand new chapters covering experimental techniques, especially atomic force microscopy, complementing the updated coverage of mathematical and computational tools. The authors have also incorporated additions to the multimedia component of video clips and animations, as well as interactive diagrams and graphs.
Key Features:
- Illustrates biological examples with estimates and calculations of biophysical parameters.
- Features two brand-new chapters on experimental methods, a general overview and focused introduction to atomic force microscopy.
- Includes new coverage of important topics such as measures of DNA twist, images of nanoparticle assembly, and novel optical and electron nanoscopy.
- Provides a guide to investigating current expert biophysical research.
- Enhanced self-study problems and an updated glossary of terms.
I. Introduction, Approach, and Tools 1 Introduction to a New World2 How (Most) Physicists Approach Biophysics3 Math Tools: First Pass II. Structure and Function 4 Water5 Structures: From 0.1 to 10 nm and Larger6 First Pass at Supramolecular Structures: Assemblies of Biomolecules 7 Putting a Cell Together: Physical Sketch III. Biological Activity: Quantum Microworld 8 Quantum Primer9 Light, Life and Measurement 10 Photosynthesis 11 Direct Ultraviolet Effects on Biological Systems IV. Biological Activity: (Classical) Microworld 12 Classical Biodynamics and Biomechanics13 Random Walks, Diffusion, and Polymer Conformation 14 Statistical Physics and Thermodynamics Primer 15 Reactions: Physical View16 Molecular Machines: Introduction17 Assembly18 Preparation for Experimental Biophysics 19 Atomic Force Microscopy
Thomas Nordlund is professor emeritus in the Department of Physics at The University of Alabama at Birmingham. He joined as faculty after earning his PhD in physics from the University of Illinois at Urbana-Champaign, with postdoctoral work done at the Biozentrum der Universität Basel and the University of Rochester. He is an elected fellow of the American Physical Society and has been studying biomolecular dynamics for over thirty years.
Peter M. Hoffmann is a professor in the Department of Physics and Astronomy at Wayne State University in Detroit, Michigan, where he founded the biomedical physics program. He is the author of the popular science book, Life’s Ratchet. He has been involved in soft matter and biophysics research for twenty-five years, and earned his PhD in materials science and engineering from Johns Hopkins University.