Thomas L. Hayes – författare
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2 produkter
2 produkter
E-bok
PDF, Engelska, 2013783 kr
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Advances in Biological and Medical Physics, Volume 16 covers articles about advances in biological and medical physics. The book presents articles about studies on spontaneous bioelectric activity of nerve cells in cultures and on means and methods for processing of physiological signals with emphasis on EEG analysis. The text also includes articles on dissipative structures and biological order; on spatial and temporal organization in the Zhabotinsky reaction; as well as on chemical topology and reaction dynamics. The perspectives on thermodynamics and the origin of life; pattern formation in a model for cooperative membrane carrier transport; as well as an enzyme membrane oscillator are also considered. The book further describes articles about synthetic membranes and living cells, membrane structure and passive flows, and energetics of active transport. The text then discusses the isolation and characterization of different molecular forms of acetylcholinesterase and the relationship of the enzyme to the membrane; as well as the chemical control of bioelectric currents. The traditional conflict between physics and metaphysics; human and scientific concepts of time; the relation of the sciences to human and religious values; and moiré patterns in science and art are also encompassed. The book concludes by providing summary remarks and personal recollections of Aharon Katchalsky and a description of Aharon Katzir as a scientist and humanist. Biological and medical physicists will find the book invaluable.
E-bok
PDF, Engelska, 2013756 kr
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Advances in Biological and Medical Physics, Volume 17 covers articles on the advances in biological and medical physics. The book presents articles on energy transfer dynamics; the molecular mechanism of DNA repair after ionizing radiation; and mechanisms of prereplication repair of DNA breaks in gamma-irradiated E. coli cells. The text then describes articles about damages to DNA that result in neoplastic transformation; the nature of radiation and chemically-induced lesions and the role of cellular mechanisms in cell survival and mutagenesis; as well as the nature of the target in the biological action of ionizing radiation. The gated detection and analysis of nanosecond pulse excitation and the time-profile multicomponent analysis using nonintrusive mass spectrometry are also considered. The book further tackles the technique of acoustic microscopy in biophysics and the use of electron spin echo spectroscopy in the study of biological structure and function. The text also describes radiation as an oncogen and as a cocarcinogen at the cellular level and speculates on some possible molecular and cellular mechanisms of radiocarcinogenesis. Biological and medical physicists, biologists, and chemists will find the book invaluable.