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Книги з теми "Bio Kinetics"

Щоб переглянути інші типи публікацій з цієї теми, перейдіть за посиланням: Bio Kinetics.

Автор: Grafiati

Опубліковано: 10 грудня 2022

Оновлено: 28 січня 2023

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Ознайомтеся з топ-17 книг для дослідження на тему "Bio Kinetics".

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1

Paneth, Piotr, and Agnieszka Dybala-Defratyka. Kinetics and dynamics: From nano- to bio-scale. Dordrecht: Springer, 2010.

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2

VanHook, W. A. (William Alexander), 1936-, Paneth Piotr, and Rebelo Luís Paulo N, eds. Isotope effects in the chemical, geological, and bio sciences. Dordrecht: Springer, 2010.

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3

Bansal, Narottam P. Crystallization kinetics of BaO-A1O□-□SiOh□. [Washington, DC]: National Aeronautics and Space Administration, 1988.

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4

Paneth, Piotr, and Agnieszka Dybala-Defratyka. Kinetics and Dynamics: From Nano- to Bio-Scale. Springer, 2012.

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5

Hook, W. Alexander Van, Luís Paulo N. Rebelo, Max Wolfsberg, and Piotr Paneth. Isotope Effects: In the Chemical, Geological, and Bio Sciences. Springer Netherlands, 2014.

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6

Hardeman, M. R. Blood Cells in Nuclear Medicine: Cell Kinetics and Bio-distribution. Ingramcontent, 2011.

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7

Najean, Y., and M. R. Hardeman. Blood Cells in Nuclear Medicine, Part I: Cell Kinetics and Bio-Distribution. Springer, 2012.

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8

Boon, Mieke. Theoretical and experimental methods in the modelling of bio-oxidation kinetics of sulphide Minerals. Mieke Boon, 1996.

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9

Crystallization kinetics of BaO-A1O-SiO. [Washington, DC]: National Aeronautics and Space Administration, 1988.

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10

National Aeronautics and Space Administration (NASA) Staff. Crystallization Kinetics of Bao-Al2o3-Sio2 Glasses. Independently Published, 2019.

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11

Zocchi, Giovanni. Molecular Machines. Princeton University Press, 2018. http://dx.doi.org/10.23943/princeton/9780691173863.001.0001.

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This book presents a dynamic new approach to the physics of enzymes and DNA from the perspective of materials science. Unified around the concept of molecular deformability—how proteins and DNA stretch, fold, and change shape—the book describes the complex molecules of life from the innovative perspective of materials properties and dynamics, in contrast to structural or purely chemical approaches. It covers a wealth of topics, including nonlinear deformability of enzymes and DNA; the chemo-dynamic cycle of enzymes; supra-molecular constructions with internal stress; nano-rheology and viscoelasticity; and chemical kinetics, Brownian motion, and barrier crossing. Essential reading for researchers in materials science, engineering, and nanotechnology, the book also describes the landmark experiments that have established the materials properties and energy landscape of large biological molecules. The book gives graduate students a working knowledge of model building in statistical mechanics, making it an essential resource for tomorrow's experimentalists in this cutting-edge field. In addition, mathematical methods are introduced in the bio-molecular context. The result is a generalized approach to mathematical problem solving that enables students to apply their findings more broadly.

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12

Jones, Evan O. Continuous operation and kinetic analysis of the attrition bio-reactor. 1986.

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13

Bio-Kinetic Testing for Health; How to Take the Guesswork Out. Living Dreams, 1998.

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14

Clarke, Andrew. Temperature and reaction rate. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199551668.003.0007.

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All other things being equal, physiological reaction rate increases roughly exponentially with temperature. Organisms that have adapted over evolutionary time to live at different temperatures can have enzyme variants that exhibit similar kinetics at the temperatures to which they have adapted to operate. Within species whose distribution covers a range of temperatures, there may be differential expression of enzyme variants with different kinetics across the distribution. Enzymes adapted to different optimum temperatures differ in their amino acid sequence and thermal stability. The Gibbs energy of activation tends to be slightly lower in enzyme variants adapted to lower temperatures, but the big change is a decrease in the enthalpy of activation, with a corresponding change in the entropy of activation, both associated with a more open, flexible structure. Despite evolutionary adjustments to individual enzymes involved in intermediary metabolism (ATP regeneration), many whole-organism processes operate faster in tropical ectotherms compared with temperate or polar ectotherms. Examples include locomotion (muscle power output), ATP regeneration (mitochondrial function), nervous conduction and growth.

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15

Lam, Diana L., and Habib Rahbar. Non-Mass Enhancement on MRI. Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0031.

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Breast cancer presents on MRI as an enhancing finding on post-contrast T1-weighted images that is distinct from normal background parenchymal enhancement (BPE), and these enhancing lesions can be further described as a focus, mass, or non-mass enhancement (NME). Each enhancing lesion, with the exception of a focus, can be described further with specific morphological features that are defined by the ACR BI-RADS Atlas. This chapter reviews the key imaging and clinical features, imaging protocols and pitfalls, differential diagnoses, and management recommendations of a focus of enhancement and non-mass enhancement on MRI. Topics discussed include distinguishing a focus from normal BPE, benign versus suspicious features of a focus, NME characterization, and kinetic enhancement curves.

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16

Zaitsev, Fedor, and Vladimir Bychkov. Mathematical modeling of electromag-netic and gravitational phenomena by the methodology of continuous media mechanics. LCC MAKS Press, 2021. http://dx.doi.org/10.29003/m2011.978-5-317-06604-8.

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The book of well-known Russian scientists systematically presents a new theoretical approach to studying nature's fundamental phenomena using the hypothesis of the physical vacuum, or the ether, as some environment in which all the processes develop. In the proposed studies, the ether is represented as some one-component continuous media that satisfies generally accepted conservation laws: of matter and momentum. From the appropriate two equations, a number of consequences are obtained to which a physical interpretation is given. For the first time, 150 years after studies of Faraday and Maxwell, it is shown that these single premises mathematically give basic physical laws established experimentally: the Maxwell equations, the Lorentz force, the Gauss theorem; the laws: Coulomb, Biot - Savard, Ampere, electromagnetic induction, Ohm, Joule - Lenz, Wiedemann - Franz, universal gravitation, and etc. Details of mechanisms of many processes, that seemed previously paradoxical, have been disclosed. A method of the model substantiation adopted in the mathematical modeling methodology allows to conclude that the presented mathematical model of the ether adequately describes electromagnetic and gravitational processes. Qualitative and quantitative analysis of hundreds of known and new experimental facts allows in the methodology of physics, as science summarizing the experiments data, to confirm a conclusion about the existence of the ether (physical vacuum). The content of the book is based on the works of authors done during the last fourteen years. Many results are published for the first time. The book is intended for specialists in the field of electrodynamics, electrical engineering, gravity and kinetics, as well as for graduate students and students, interested in the fundamental principles of these scientific directions. This book is unique in terms of the comprehensive consideration of the problem and the depth of its analysis.

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17

Kirkland, N. Bryant. Herodotus and Imperial Greek Literature. Oxford University PressNew York, 2022. http://dx.doi.org/10.1093/oso/9780197583517.001.0001.

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Abstract This book is the first monograph devoted to the reception of Herodotus among Imperial Greek writers. Using a broad reception model and focused largely on texts outside of historiography proper, the book analyzes the entanglements of criticism and imitation in select works by Dionysius of Halicarnassus, Plutarch, Dio Chrysostom, Lucian, and Pausanias. It offers a new angle on Herodotus’s intellectual afterlife, channeled through evocations both explicit and implicit in literary criticism, the moral essay, public oration, satire, and periegetic literature. The book shifts focus from reputation only—what ancient authors explicitly had to say about Herodotus—toward the kinetic interrelation between Herodotus’s reputation and his active reworking across genre and mode. It demonstrates how Herodotus was strategically construed and often implicitly summoned—as fabulist, classicist, moralizer, and evasive intellectual—and how such Herodotean presences played to the wider purposes of Imperial writers. Herodotus became a touchstone for writers concerned with a nimbus of questions that the Histories first helped to articulate. Imperial Greeks found Herodotus useful in puzzling through questions of authorial persona, mimesis, the relationship between aesthetic and ethical criticism, the self, and the contingent definitions of Hellenism under Rome. Ultimately, the book widens an incomplete reception history and reads bi-focally, examining how attention to the presence of Herodotus in various texts unveils new layers of meaning in those works, while also showing how ancient receptions offer insight into the Histories.

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