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Livros sobre o tema "Non-Newtonian dynamics"

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Publicado: 8 de junho de 2024

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1

J, Balmforth Neil, Hinch John e Woods Hole Oceanographic Institution, eds. Non-Newtonian geophysical fluid dynamics. Woods Hole, Mass: WHOI, 2004.

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2

Barut, A. O. Geometry and physics: Non-Newtonian forms of dynamics. Napoli: Bibliopolis, 1989.

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3

International, Workshop on Numerical Methods for Non-Newtonian Flows (12th 2001 Monterey Bay Calif ). XIIth International Workshop on Numerical Methods for Non-Newtonian Flows. Amsterdam: Elsevier, 2002.

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4

Wang, Hailin. Zhou cheng jian xi fei niu dun run hua ji de fei xian xing dong li xue. 8a ed. Beijing Shi: Beijing li gong da xue chu ban she, 2009.

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5

Yitzhak, Rabin, e Polymer Flow Interaction Workshop (1985 : La Jolla Institute), eds. Polymer-flow interaction (La Jolla Institute, 1985). New York: American Institute of Physics, 1985.

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6

C, Vradis George, Siginer Dennis A, American Society of Mechanical Engineers. Fluids Engineering Division. Summer Meeting e American Society of Mechanical Engineers. Fluids Engineering Division., eds. Numerical methods for non-Newtonian fluid dynamics: Presented at the 1994 ASME Fluids Engineering Division Summer Meeting, Lake Tahoe, Nevada, June 19-23, 1994. New York, N.Y: American Society of Mechanical Engineers, 1994.

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7

Keken, Peter Edwin van. Numerical modelling of thermochemically driven fluid flow with non-Newtonian rheology: Applied to the earth's lithosphere and mantle. [Utrecht: Faculteit Aardwetenschappen der Rijksuniversiteit te Utrecht, 1993.

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8

IUTAM Symposium on Numerical Simulation of Non-Isothermal Flow of Viscoelastic Liquids (1993 Kerkrade, Netherlands). IUTAM Symposium on Numerical Simulation of Non-Isothermal Flow of Viscoelastic Liquids: Proceedings of an IUTAM symposium held in Kerkrade, the Netherlands, 1-3 November 1993. Dordrecht: Kluwer Academic Publishers, 1995.

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9

Carew, Peter Simon. Bubble dynamics of non-Newtonian flows in inclined pipes for the prediction of gas kicks in oilwells. Birmingham: University of Birmingham, 1993.

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10

L, Bertozzi Andrea, ed. Vorticity and incompressible flow. Cambridge: Cambridge University Press, 2002.

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11

Yudaev, Vasiliy. Hydraulics. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/996354.

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The textbook corresponds to the general education programs of the general courses "Hydraulics" and "Fluid Mechanics". The basic physical properties of liquids, gases, and their mixtures, including the quantum nature of viscosity in a liquid, are described; the laws of hydrostatics, their observation in natural phenomena, and their application in engineering are described. The fundamentals of the kinematics and dynamics of an incompressible fluid are given; original examples of the application of the Bernoulli equation are given. The modes of fluid motion are supplemented by the features of the transient flow mode at high local resistances. The basics of flow similarity are shown. Laminar and turbulent modes of motion in pipes are described, and the classification of flows from a creeping current to four types of hypersonic flow around the body is given. The coefficients of nonuniformity of momentum and kinetic energy for several flows of Newtonian and non-Newtonian fluids are calculated. Examples of solving problems of transient flows by hydraulic methods are given. Local hydraulic resistances, their use in measuring equipment and industry, hydraulic shock, polytropic flow of gas in the pipe and its outflow from the tank are considered. The characteristics of different types of pumps, their advantages and disadvantages, and ways of adjustment are described. A brief biography of the scientists mentioned in the textbook is given, and their contribution to the development of the theory of hydroaeromechanics is shown. The four appendices can be used as a reference to the main text, as well as a subject index. Meets the requirements of the federal state educational standards of higher education of the latest generation. For students of higher educational institutions who study full-time, part-time, evening, distance learning forms of technological and mechanical specialties belonging to the group "Food Technology".
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12

Non-Newtonian geophysical fluid dynamics. Woods Hole, Mass: WHOI, 2004.

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13

Guo, Boling, Chunxiao Guo, Qiaoxin Li, Yaqing Liu e China Science China Science Publishing & Media Ltd. Non-Newtonian Fluids: A Dynamical Systems Approach. de Gruyter GmbH, Walter, 2018.

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14

Guo, Boling, Chunxiao Guo, Qiaoxin Li, Yaqing Liu e China Science China Science Publishing & Media Ltd. Non-Newtonian Fluids: A Dynamical Systems Approach. de Gruyter GmbH, Walter, 2018.

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15

Guo, Boling, Chunxiao Guo, Yaqin Liu, Qiaoxin Li e China Science Publishing and Media Ltd Staff. Non-Newtonian Fluids: A Dynamical Systems Approach. De Gruyter, Inc., 2018.

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16

Bellout, Hamid, e Frederick Bloom. Incompressible Bipolar and Non-Newtonian Viscous Fluid Flow. Birkhäuser, 2016.

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17

Bellout, Hamid, e Frederick Bloom. Incompressible Bipolar and Non-Newtonian Viscous Fluid Flow. Birkhauser Verlag, 2013.

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18

Toro, Eleuterio F., Angiolo Farina, Lorenzo Fusi, Adélia Sequeira, Giuseppe Saccomandi, Andro Mikelić, Fabio Rosso e Andro Mikelić. Non-Newtonian Fluid Mechanics and Complex Flows: Levico Terme, Italy 2016. Springer, 2018.

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19

Steffe, James Freeman. Bioprocessing Pipelines: Rheology and Analysis. Freeman Press, 2006.

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20

Tyowua, Andrew T. Liquid Marbles: Formation, Characterization, and Applications. Taylor & Francis Group, 2018.

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21

Tyowua, Andrew T. Liquid Marbles: Formation, Characterization, and Applications. Taylor & Francis Group, 2018.

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22

Tyowua, Andrew T. Liquid Marbles: Formation, Characterization, and Applications. Taylor & Francis Group, 2018.

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23

Tyowua, Andrew T. Liquid Marbles: Formation, Characterization, and Applications. Taylor & Francis Group, 2018.

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24

Tyowua, Andrew T. Liquid Marbles: Formation, Characterization, and Applications. Taylor & Francis Group, 2018.

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25

Vradis, George C. Numerical Methods for Non-Newtonian Fluid Dynamics: Presented at the 1994 Asme Fluids Engineering Division Summer Meeting, Lake Tahoe, Nevada, June 19 (Sera). American Society of Mechanical Engineers, 1994.

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26

Barut, A. O. Geometry and Physics: Non-Newtonian Forms of Dynamics (Monographs and Textbooks in Physical Science Lecture Notes). Humanities Pr, 1990.

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27

Majda, Andrew J., e Andrea L. Bertozzi. Vorticity and Incompressible Flow. Cambridge University Press, 2001.

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28

Majda, Andrew J., e Andrea L. Bertozzi. Vorticity and Incompressible Flow. Cambridge University Press, 2001.

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29

Majda, Andrew J., e Andrea L. Bertozzi. Vorticity and Incompressible Flow. Cambridge University Press, 2001.

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30

Davis, S. H., M. J. Ablowitz, Andrew J. Majda, Andrea L. Bertozzi e E. J. Hinch. Vorticity and Incompressible Flow. Cambridge University Press, 2005.

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31

Majda, Andrew J., e Andrea L. Bertozzi. Vorticity and Incompressible Flow. Cambridge University Press, 2010.

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32

Chin, Wilson C. Computational Rheology for Pipeline and Annular Flow: Non-Newtonian Flow Modeling for Drilling and Production, and Flow Assurance Methods in Subsea Pipeline Design. Elsevier Science & Technology Books, 2001.

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33

Saha, Prasenjit, e Paul A. Taylor. Schwarzschild’s Spacetime. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198816461.003.0003.

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The concept of a metric is motivated and introduced, along with the introduction of relativistic quantities of spacetime, proper time, and Einstein’s field equations. Geodesics are cast in basic form as a Hamiltonian dynamical problem, which readers are guided towards exploring numerically themselves. The specific case of the Schwarzschild metric is presented, which is applicable to space around non-rotating black holes, and orbital motion around such objects is contrasted with that of Newtonian systems. Some well-known formulas for black hole phenomena are derived, such as those for light deflection (also known as gravitational lensing) and the innermost stable orbit, and their consequences discussed.
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