E coli in Motion - Howard C. Berg
Series Preface
The fields of biological and medical physics and biomedical engineering
are broad,
multidisciplinary and dynamic. They lie at the
crossroads of frontier research in physics, biology, chemistry, and
medicine. The Biological & Medical Physics/Biomedical Engineering
Series is intended to be comprehensive,
covering a broad
range of topics important to the study of the physical, chemical
and biological sciences. Its goal is to provide scientists and engineers
with textbooks,
monographs, and reference works to address
the growing need for information.
Books in the series emphasize established and emergent areas
of science including molecular, membrane, and mathematical biophysics; photosynthetic energy harvesting and conversion;
information processing; physical principles of genetics; sensory
communications; automata networks, neural networks, and cellular
automata.
Equally important will be coverage of applied
aspects of biological and medical physics and biomedical engineering
such as molecular electronic components and devices,
biosensors,
medicine, imaging, physical principles of renewable
energy production, advanced prostheses, and environmental control
and engineering.
Elias Greenbaum
Oak Ridge, TN
Download
*
Series Preface
The fields of biological and medical physics and biomedical engineering
are broad,
multidisciplinary and dynamic. They lie at the
crossroads of frontier research in physics, biology, chemistry, and
medicine. The Biological & Medical Physics/Biomedical Engineering
Series is intended to be comprehensive,
covering a broad
range of topics important to the study of the physical, chemical
and biological sciences. Its goal is to provide scientists and engineers
with textbooks,
monographs, and reference works to address
the growing need for information.
Books in the series emphasize established and emergent areas
of science including molecular, membrane, and mathematical biophysics; photosynthetic energy harvesting and conversion;
information processing; physical principles of genetics; sensory
communications; automata networks, neural networks, and cellular
automata.
Equally important will be coverage of applied
aspects of biological and medical physics and biomedical engineering
such as molecular electronic components and devices,
biosensors,
medicine, imaging, physical principles of renewable
energy production, advanced prostheses, and environmental control
and engineering.
Elias Greenbaum
Oak Ridge, TN
Download
*