Intermediate Physics for Medicine and Biology 4th edition
Preface
From the Preface to the Third Edition, by Russell K.
Hobbie:
Between 1971 and 1973 I audited all the courses medical students take in their first two
years at the University of Minnesota. I was amazed at the amount of physics I found in these
courses and how little of it is discussed in the general physics course.
I found a great discrepancy between the physics in some papers in the biological research
literature and what I knew to be the level of understanding of most biology majors or premed
students who have taken a year of physics. It was clear that an intermediate-level physics course
would help these students. It would provide the physics they need and would relate it directly to
the biological problems where it is useful.
This book is the result of my having taught such a course since 1973. It is intended to serve
as a text for an intermediate course taught in a physics department and taken by a variety of
majors. Since its primary content is physics, I hope that physics faculty who might shy away
from teaching a conventional biophysics course will consider teaching it. I also hope that research
workers in biology and medicine will find it a useful reference to brush up on the physics
they need or to find a few pointers to the current literature in a number of areas of
biophysics. (The bibliography in each chapter is by no means exhaustive; however, the references
should lead you quickly into a field.) The course offered at the University of Minnesota is taken
by undergraduates in a number of majors who want to see more physics with biological
applications and by graduate students in physics, bio- physical sciences, biomedical engineering,
physiology, and cell biology.
Intended for advanced undergraduate and beginning graduate students in biophysics, physiology, medical physics, cell biology, and biomedical engineering, this wide-ranging text bridges the gap between introductory physics and its application to the life and biomedical sciences. This extensively revised and updated fourth edition reflects new developments at the burgeoning interface between physics and biomedicine. Among the many topics treated are: forces in the skeletal system; fluid flow, with examples from the circulatory system; the logistic equation; scaling; transport of neutral particles by diffusion and by solvent drag; membranes and osmosis; equipartition of energy in statistical mechanics; the chemical potential and free energy; biological magnetic fields; membranes and gated channels in membranes; linear and nonlinear feedback systems; nonlinear phenomena, including biological clocks and chaotic behavior; signal analysis, noise and stochastic resonance detection of weak signals; image formation and description; image reconstruction; hearing and medical ultrasound; atoms and light; near infrared scattering; optical coherence tomography; infrared radiation; ultraviolet light; radiometry and photometry; the interaction of photons and charged particles in tissue; radiological physics and the use of x-rays in diagnosis and therapy; nuclear medicine; and magnetic resonance imaging. Discussion of theory is more closely linked to experiment, and stochastic processes are presented as an integral part of biological systems. A prior course in physics and in calculus is assumed.
Over 800 problems (a 44% increase from the third edition) are included to test the student's understanding and to provide additional biological examples. A solutions manual is available to instructors. Each chapter has an extensive list of references as well as useful bibliographies for further reading. Intermediate Physics for Medicine and Biology is also ideal for self study and as a reference for workers in medical and biological research.
KEY FEATURES:
Provides an excellent background in physics for physicians, biomedical engineers, and biologists
Includes a new chapter on sound and ultrasound and presents stochastic processes as an integral part of biological systems
Emphasizes applications of physics to biomedicine rather than molecular biophysics
Contains numerous problems and exercises for course use and as a reference for self study
2007-03-12 -- ISBN: 038730942X -- PDF -- 640 pages -- 19.88 Mb
Download
*
Preface
From the Preface to the Third Edition, by Russell K.
Hobbie:
Between 1971 and 1973 I audited all the courses medical students take in their first two
years at the University of Minnesota. I was amazed at the amount of physics I found in these
courses and how little of it is discussed in the general physics course.
I found a great discrepancy between the physics in some papers in the biological research
literature and what I knew to be the level of understanding of most biology majors or premed
students who have taken a year of physics. It was clear that an intermediate-level physics course
would help these students. It would provide the physics they need and would relate it directly to
the biological problems where it is useful.
This book is the result of my having taught such a course since 1973. It is intended to serve
as a text for an intermediate course taught in a physics department and taken by a variety of
majors. Since its primary content is physics, I hope that physics faculty who might shy away
from teaching a conventional biophysics course will consider teaching it. I also hope that research
workers in biology and medicine will find it a useful reference to brush up on the physics
they need or to find a few pointers to the current literature in a number of areas of
biophysics. (The bibliography in each chapter is by no means exhaustive; however, the references
should lead you quickly into a field.) The course offered at the University of Minnesota is taken
by undergraduates in a number of majors who want to see more physics with biological
applications and by graduate students in physics, bio- physical sciences, biomedical engineering,
physiology, and cell biology.
Intended for advanced undergraduate and beginning graduate students in biophysics, physiology, medical physics, cell biology, and biomedical engineering, this wide-ranging text bridges the gap between introductory physics and its application to the life and biomedical sciences. This extensively revised and updated fourth edition reflects new developments at the burgeoning interface between physics and biomedicine. Among the many topics treated are: forces in the skeletal system; fluid flow, with examples from the circulatory system; the logistic equation; scaling; transport of neutral particles by diffusion and by solvent drag; membranes and osmosis; equipartition of energy in statistical mechanics; the chemical potential and free energy; biological magnetic fields; membranes and gated channels in membranes; linear and nonlinear feedback systems; nonlinear phenomena, including biological clocks and chaotic behavior; signal analysis, noise and stochastic resonance detection of weak signals; image formation and description; image reconstruction; hearing and medical ultrasound; atoms and light; near infrared scattering; optical coherence tomography; infrared radiation; ultraviolet light; radiometry and photometry; the interaction of photons and charged particles in tissue; radiological physics and the use of x-rays in diagnosis and therapy; nuclear medicine; and magnetic resonance imaging. Discussion of theory is more closely linked to experiment, and stochastic processes are presented as an integral part of biological systems. A prior course in physics and in calculus is assumed.
Over 800 problems (a 44% increase from the third edition) are included to test the student's understanding and to provide additional biological examples. A solutions manual is available to instructors. Each chapter has an extensive list of references as well as useful bibliographies for further reading. Intermediate Physics for Medicine and Biology is also ideal for self study and as a reference for workers in medical and biological research.
KEY FEATURES:
Provides an excellent background in physics for physicians, biomedical engineers, and biologists
Includes a new chapter on sound and ultrasound and presents stochastic processes as an integral part of biological systems
Emphasizes applications of physics to biomedicine rather than molecular biophysics
Contains numerous problems and exercises for course use and as a reference for self study
2007-03-12 -- ISBN: 038730942X -- PDF -- 640 pages -- 19.88 Mb
Download
*