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Books on the topic 'Oblique boundary value problem'

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Published: 4 June 2021
Last updated: 28 January 2023

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1

I͡Anushauskas, Alʹgimantas Ionosovich. The oblique derivative problem of potential theory. New York: Consultants Bureau, 1989.

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2

Popivanov, Peter R. The degenerate oblique derivative problem for elliptic and parabolic equations. Berlin: Akademie Verlag, 1997.

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3

1951-, Weber Roman, ed. Radiation in enclosures: Elliptic boundary value problem. Berlin: Springer, 2000.

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4

Govorov, N. V. Riemann's boundary problem with infinite index. Basel: Birkhäuser Verlag, 1994.

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5

Vuik, C. The solution of a one-dimensional Stefan problem. Amsterdam, Netherlands: Centrum voor Wiskunde en Informatica, 1993.

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6

The Stefan problem. Berlin: Walter de Gruyter, 1992.

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7

Sansò, Fernando, and Michael G. Sideris. Geodetic Boundary Value Problem: the Equivalence between Molodensky’s and Helmert’s Solutions. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-46358-2.

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8

Hartley, T. T. Insights into the fractional order initial value problem via semi-infinite systems. [Cleveland, Ohio]: National Aeronautics and Space Administration, Lewis Research Center, 1998.

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9

Gelderen, Martin van. The geodetic boundary value problem in two dimensions and its iterative solution. Delft, The Netherlands: Nederlandse Commissie voor Geodesie, 1991.

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10

Tsaoussi, Lucia S. A simulation study of the overdetermined geodetic boundary value problem using collocation. Columbus, Ohio: Dept. of Geodetic Science and Surveying, Ohio State University, 1989.

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11

The classical Stefan problem: Basic concepts, modelling and analysis. Amsterdam: Elsevier, 2003.

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12

A, Soloviev Alexander, Shaposhnikova Tatyana, and SpringerLink (Online service), eds. Boundary Integral Equations on Contours with Peaks. Basel: Birkhäuser Basel, 2010.

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13

Lambert, J. D. Numerical methods for ordinary differential systems: The initial value problem. Chichester: Wiley, 1991.

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14

The [D-bar] Neumann problem and Schrödinger operators. Berlin: Walter de Gruyter, 2014.

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15

Sturgeon, Jane A. A shooting technique for a differential / algebraic boundary value problem arising in detonation modelling. Manchester: UMIST, 1997.

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16

Keyes, David E. Analysis of a parallelized nonlinear elliptic boundary value problem solver with application to reacting flows. Hampton, Va: ICASE, 1987.

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17

Benedek, Agnes Ilona. Remarks on a theorem of Å. Pleijel and related topics. Bahia Blanca, Argentina: INMABB-CONICET, Universidad Nacional del Sur, 2005.

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18

Molenkamp, F. Analytical solutions of dirichlet type of boundary value problem of hour-glass mode of 4-node quad. Manchester: UMIST, 1999.

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19

1951-, Smooke Mitchell D., and Institute for Computer Applications in Science and Engineering, eds. Analysis of a parallelized nonlinear elliptic boundary value problem solver with application to reacting flows: Final report. Hampton, Va: Institute for Computer Applications in Science and Engineering, NASA Langley Research Center, 1987.

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20

Baldwin, P. Asymptotic estimates of the eigenvalues of a sixth-order boundary-value problem obtained by using global phase-integralmethods. London: Royal Society of London, 1987.

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21

Ri︠a︡benʹkiĭ, V. S. Long-time numerical integration of the three-dimensional wave equation in the vicinity of a moving source. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1999.

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22

I, Plotnikov Pavel, ed. Small divisor problem in the theory of three-dimensional water gravity waves. Providence, R.I: American Mathematical Society, 2009.

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23

Wachspress, Eugene. The ADI Model Problem. New York, NY: Springer New York, 2013.

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24

1956-, Dos̆lá Zuzana, and Graef John R. 1942-, eds. The nonlinear limit-point/limit-circle problem. Boston: Birkhäuser, 2003.

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25

Li, Daqian. Global classical solutions for quasilinear hyperbolic systems. Chichester: Wiley, 1994.

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26

G, Romanov V., and Shishatskiĭ S. P, eds. Ill-posed problems of mathematical physics and analysis. Providence, R.I: American Mathematical Society, 1986.

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27

Graglia, Roberto D., Giuseppe Pelosi, and Stefano Selleri, eds. International Workshop on Finite Elements for Microwave Engineering. Florence: Firenze University Press, 2016. http://dx.doi.org/10.36253/978-88-6655-968-9.

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When Courant prepared the text of his 1942 address to the American Mathematical Society for publication, he added a two-page Appendix to illustrate how the variational methods first described by Lord Rayleigh could be put to wider use in potential theory. Choosing piecewise-linear approximants on a set of triangles which he called elements, he dashed off a couple of two-dimensional examples and the finite element method was born. … Finite element activity in electrical engineering began in earnest about 1968-1969. A paper on waveguide analysis was published in Alta Frequenza in early 1969, giving the details of a finite element formulation of the classical hollow waveguide problem. It was followed by a rapid succession of papers on magnetic fields in saturable materials, dielectric loaded waveguides, and other well-known boundary value problems of electromagnetics. … In the decade of the eighties, finite element methods spread quickly. In several technical areas, they assumed a dominant role in field problems. P.P. Silvester, San Miniato (PI), Italy, 1992 Early in the nineties the International Workshop on Finite Elements for Microwave Engineering started. This volume contains the history of the Workshop and the Proceedings of the 13th edition, Florence (Italy), 2016 . The 14th Workshop will be in Cartagena (Colombia), 2018.
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28

Orlik, Lyubov', and Galina Zhukova. Operator equation and related questions of stability of differential equations. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1061676.

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The monograph is devoted to the application of methods of functional analysis to the problems of qualitative theory of differential equations. Describes an algorithm to bring the differential boundary value problem to an operator equation. The research of solutions to operator equations of special kind in the spaces polutoratonny with a cone, where the limitations of the elements of these spaces is understood as the comparability them with a fixed scale element of exponential type. Found representations of the solutions of operator equations in the form of contour integrals, theorems of existence and uniqueness of such solutions. The spectral criteria for boundedness of solutions of operator equations and, as a consequence, sufficient spectral features boundedness of solutions of differential and differential-difference equations in Banach space. The results obtained for operator equations with operators and work of Volterra operators, allowed to extend to some systems of partial differential equations known spectral stability criteria for solutions of A. M. Lyapunov and also to generalize theorems on the exponential characteristic. The results of the monograph may be useful in the study of linear mechanical and electrical systems, in problems of diffraction of electromagnetic waves, theory of automatic control, etc. It is intended for researchers, graduate students functional analysis and its applications to operator and differential equations.
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29

Janušauskas, A. The oblique derivative problem of potential theory. Consultants Bureau, 1989.

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30

The Oblique Derivative Problem of Potential Theory (Monographs in Contemporary Mathematics). Springer, 1989.

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31

Averbeck, Patrick J. Boundary value problem for the rectangular wavemaker. 1993.

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32

Mbiock, Aristide, and Roman Weber. Radiation in Enclosures: Elliptic Boundary Value Problem. Springer, 2011.

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33

Radiation in Enclosures: Elliptic Boundary Value Problem. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000.

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34

Tanaka, Yoshihiro. Irregular points in wavemaker boundary value problem. 1988.

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35

Mbiock, Aristide. Radiation in Enclosures: Elliptic Boundary Value Problem. Springer, 2012.

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36

Greiner, Peter Charles. Estimates of the Neumann Problem. Princeton University Press, 2015.

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37

Greiner, Peter Charles. Estimates of the Neumann Problem. Princeton University Press, 2016.

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38

Helfenstein, Franz Hugo. A free boundary value problem modeling streambed erosion. 1986.

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39

Greiner, Peter Charles. Estimates of the Neumann Problem. (MN-19), Volume 19. Princeton University Press, 2015.

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40

Sanz, Jose M. Well Posed Boundary Value Problem in Transonic Gas Dynamics. Creative Media Partners, LLC, 2015.

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41

Haslinger, Friedrich. d-Bar Neumann Problem and Schrödinger Operators. de Gruyter GmbH, Walter, 2014.

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42

1957-, Jackson Thomas L., Lasseigne D. G, and Langley Research Center, eds. The initial-value problem for viscous channel flows. Hampton, VA: Institute for Computer Applications in Science and Engineering, NASA Langley Research Center, 1995.

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43

C, Gupta S. Classical Stefan Problem: Basic Concepts, Modelling and Analysis. Elsevier Science & Technology Books, 2003.

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44

Sideris, Michael G., and Fernando Sansò. Geodetic Boundary Value Problem: The Equivalence Between Molodensky's and Helmert's Solutions. Springer, 2016.

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45

The Adi Model Problem. Springer, 2012.

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46

Zettl, Anton, Robert M. Kauffman, and Thomas T. Read. Deficiency Index Problem for Powers of Ordinary Differential Expressions. Springer London, Limited, 2006.

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47

Sideris, Michael G., and Fernando Sansò. Geodetic Boundary Value Problem: The Equivalence Between Molodensky S and Helmert S Solutions. Springer International Publishing AG, 2016.

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48

Racke, Reinhard. Lectures on Nonlinear Evolution Equations: Initial Value Problem. Vieweg+Teubner Verlag, 2013.

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49

The Dirichlet Problem For The Laplacian In Bounded And Unbounded Domains A New Approach To Weak Strong And 2ksolutions In Sobolevtype Spaces. CRC Press, 1996.

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50

Petrosyan, Arshak, Tung To, Donatella Danielli, and Nicola Garofalo. Optimal Regularity and the Free Boundary in the Parabolic Signorini Problem. American Mathematical Society, 2017.

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