Physical Biology of the Cell: A Review of the Book and Its Solutions Manual
Physical Biology of the Cell is a textbook for the first course of physical biology or biophysics for undergraduate students. It was written by Rob Phillips, Jane Kondev, Julie Theriot, and Hernan Garcia, and published by Garland Science in 2012. The book covers the principles and methods of applying physics to understand biological phenomena, such as cell structure, gene regulation, molecular motors, and signal transduction. The book also provides a solutions manual that contains detailed answers to the problems at the end of each chapter.
Physical Biology of the Cell: A Review of the Book and Its Solutions Manual
Download File: https://www.google.com/url?q=https%3A%2F%2Ftiurll.com%2F2tIyww&sa=D&sntz=1&usg=AOvVaw165B7jy2_eBoRaVe47zRLN
The book is divided into three parts. The first part deals with the basics of science, such as units, dimensions, scaling, estimation, and dimensional analysis. The second part introduces the basic concepts of physical biology, such as entropy, free energy, chemical potential, diffusion, electrostatics, and elasticity. The third part explores the applications of physical biology to various topics in cell biology, such as DNA structure and function, gene expression and regulation, membrane structure and transport, cytoskeleton dynamics and mechanics, molecular motors and motility, and cell signaling and communication.
The book is well-written and illustrated with clear diagrams and examples. It also contains many exercises and problems that challenge the students to apply their knowledge and skills to real biological systems. The solutions manual is a valuable resource for students and instructors who want to check their answers or learn from the detailed explanations. The solutions manual also contains additional problems that are not found in the book.
Physical Biology of the Cell is a comprehensive and rigorous introduction to the field of physical biology. It is suitable for students who have a background in calculus, physics, chemistry, and biology. It is also a useful reference for researchers and professionals who want to learn more about the physical aspects of cell biology.
The book also features several appendices that provide additional information and resources for the students. For example, Appendix A contains a review of mathematics and physics that are relevant to physical biology, such as calculus, vectors, complex numbers, differential equations, and Fourier analysis. Appendix B contains a list of useful physical constants and conversion factors. Appendix C contains a glossary of terms and symbols that are used in the book. Appendix D contains a list of references and suggested readings for further study.
The book and the solutions manual are available in both print and electronic formats. The electronic version of the book can be accessed online or downloaded as a PDF file. The electronic version of the solutions manual can be accessed online or downloaded as a RAR file. The RAR file contains the solutions manual in PDF format, as well as the MATLAB code and data files that are used to generate some of the figures and solutions in the manual.
Physical Biology of the Cell is an excellent textbook for teaching and learning physical biology. It combines the rigor of physics with the relevance of biology, and provides a solid foundation for further studies in biophysics, bioengineering, systems biology, and computational biology. It is highly recommended for anyone who is interested in the physical principles and methods that underlie biological phenomena. 04f6b60f66