| Preface |
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1 | (19) |
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1 | (12) |
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0.1.1 One-dimensional pseudoparabolic equations |
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1 | (1) |
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0.1.2 One-dimensional wave dispersive equations |
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2 | (1) |
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0.1.3 Singular one-dimensional pseudoparabolic equations |
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3 | (1) |
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0.1.4 Multidimensional pseudoparabolic equations |
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3 | (2) |
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0.1.5 New nonlinear pseudoparabolic equations with sources |
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5 | (1) |
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0.1.6 Model nonlinear equations of even order |
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6 | (1) |
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0.1.7 Multidimensional even-order equations |
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7 | (3) |
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0.1.8 Results and methods of proving theorems on the nonexistence and blow-up of solutions for pseudoparabolic equations |
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10 | (3) |
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0.2 Structure of the monograph |
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13 | (1) |
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14 | (6) |
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1 Nonlinear model equations of Sobolev type |
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20 | (49) |
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1.1 Mathematical models of quasi-stationary processes in crystalline semi-conductors |
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20 | (7) |
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1.2 Model pseudoparabolic equations |
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27 | (21) |
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1.2.1 Nonlinear waves of Rossby type or drift modes in plasma and appropriate dissipative equations |
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27 | (2) |
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1.2.2 Nonlinear waves of Oskolkov-Benjamin-Bona-Mahony type |
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29 | (5) |
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1.2.3 Models of anisotropic semiconductors |
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34 | (3) |
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1.2.4 Nonlinear singular equations of Sobolev type |
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37 | (1) |
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1.2.5 Pseudoparabolic equations with a nonlinear operator on time derivative |
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38 | (1) |
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1.2.6 Nonlinear nonlocal equations |
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39 | (7) |
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1.2.7 Boundary-value problems for elliptic equations with pseudoparabolic boundary conditions |
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46 | (2) |
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1.3 Disruption of semiconductors as the blow-up of solutions |
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48 | (8) |
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1.4 Appearance and propagation of electric domains in semiconductors |
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56 | (4) |
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1.5 Mathematical models of quasi-stationary processes in crystalline electromagnetic media with spatial dispersion |
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60 | (4) |
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1.6 Model pseudoparabolic equations in electric media with spatial dispersion |
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64 | (2) |
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1.7 Model pseudoparabolic equations in magnetic media with spatial dispersion |
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66 | (3) |
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2 Blow-up of solutions of nonlinear equations of Sobolev type |
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69 | (147) |
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2.1 Formulation of problems |
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69 | (1) |
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2.2 Preliminary definitions, conditions, and auxiliary lemmas |
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70 | (8) |
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2.3 Unique solvability of problem (2.1) in the weak generalized sense and blow-up of its solutions |
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78 | (23) |
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2.4 Unique solvability of problem (2.1) in the strong generalized sense and blow-up of its solutions |
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101 | (10) |
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2.5 Unique solvability of problem (2.2) in the weak generalized sense and estimates of time and rate of the blow-up of its solutions |
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111 | (16) |
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2.6 Strong solvability of problem (2.2) in the case where B ≡ 0 |
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127 | (6) |
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133 | (8) |
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2.8 Initial-boundary-value problem for a nonlinear equation with double nonlinearity of type (2.1) |
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141 | (23) |
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2.8.1 Local solvability of problem (2.131)-(2.133) in the weak generalized sense |
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142 | (17) |
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2.8.2 Blow-up of solutions |
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159 | (5) |
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2.9 Problem for a strongly nonlinear equation of type (2.2) with inferior nonlinearity |
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164 | (23) |
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2.9.1 Unique weak solvability of problem (2.185) |
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165 | (12) |
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2.9.2 Solvability in a finite cylinder and blow-up for a finite time |
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177 | (6) |
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2.9.3 Rate of the blow-up of solutions |
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183 | (4) |
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2.10 Problem for a semilinear equation of the form (2.2) |
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187 | (9) |
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2.10.1 Blow-up of classical solutions |
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187 | (9) |
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2.11 On sufficient conditions of the blow-up of solutions of the Boussinesq equation with sources and nonlinear dissipation |
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196 | (7) |
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2.11.1 Local solvability of strong generalized solutions |
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197 | (3) |
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2.11.2 Blow-up of solutions |
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200 | (3) |
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2.12 Sufficient conditions of the blow-up of solutions of initial-boundary-value problems for a strongly nonlinear pseudoparabolic equation of Rosenau type |
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203 | |
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2.12.1 Local solvability of the problem in the strong generalized sense |
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203 | (8) |
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2.12.2 Blow-up of strong solutions of problem (2.288)-(2.289) and solvability in any finite cylinder |
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211 | (4) |
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2.12.3 Physical interpretation |
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215 | (1) |
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3 Blow-up of solutions of strongly nonlinear Sobolev-type wave equations and equations with linear dissipation |
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216 | (141) |
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3.1 Formulation of problems |
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216 | (1) |
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3.2 Preliminary definitions and conditions and auxiliary lemma |
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217 | (2) |
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3.3 Unique solvability of problem (3.1) in the weak generalized sense and blow-up of its solutions |
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219 | (25) |
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3.4 Unique solvability of problem (3.1) in the strong generalized sense and blow-up of its solutions |
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244 | (10) |
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3.5 Unique solvability of problem (3.2) in the weak generalized sense and blow-up of its solutions |
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254 | (19) |
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3.6 Unique solvability of problem (3.2) in the strong generalized sense and blow-up of its solutions |
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273 | (5) |
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278 | (10) |
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3.8 On certain initial-boundary-value problems for quasilinear wave equations of the form (3.2) |
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288 | (20) |
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3.8.1 Local solvability in the strong generalized sense of problems (3.141)-(3.143) |
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288 | (7) |
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3.8.2 Blow-up of solutions |
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295 | (7) |
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3.8.3 Breakdown of weakened solutions of problem (3.141) |
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302 | (6) |
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3.9 On an initial-boundary-value problem for a strongly nonlinear equation of the type (3.1) (generalized Boussinesq equation) |
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308 | (12) |
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3.9.1 Unique solvability of the problem in the weak sense |
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309 | (6) |
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3.9.2 Blow-up of solutions and the global solvability of the problem |
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315 | (5) |
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3.10 Blow-up of solutions of a class of quasilinear wave dissipative pseudoparabolic equations with sources |
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320 | (9) |
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3.10.1 Unique local solvability of the problem in the strong sense and blow-up of its solutions |
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320 | (7) |
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327 | (2) |
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3.11 Blow-up of solutions of the Oskolkov-Benjamin-Bona-Mahony-Burgers equation with a cubic source |
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329 | (8) |
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3.11.1 Unique local solvability of the problem |
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330 | (3) |
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3.11.2 Global solvability and the blow-up of solutions |
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333 | (4) |
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3.11.3 Physical interpretation of the obtained results |
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337 | (1) |
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3.12 On generalized Benjamin-Bona-Mahony-Burgers equation with pseudo-Laplacian |
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337 | (4) |
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3.12.1 Blow-up of strong generalized solutions |
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337 | (3) |
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3.12.2 Physical interpretation of the obtained results |
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340 | (1) |
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3.13 Sufficient, close to necessary, conditions of the blow-up of solutions of one problem with pseudo-Laplacian |
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341 | (4) |
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3.13.1 Blow-up of strong generalized solutions |
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341 | (4) |
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3.13.2 Physical interpretation of the obtained results |
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345 | (1) |
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3.14 Sufficient, close to necessary, conditions of the blow-up of solutions of strongly nonlinear generalized Boussinesq equation |
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345 | (12) |
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4 Blow-up of solutions of strongly nonlinear, dissipative wave Sobolev-type equations with sources |
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357 | (82) |
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4.1 Introduction. Statement of problem |
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357 | (1) |
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4.2 Unique solvability of problem (4.1) in the weak generalized sense and blow-up of its solutions |
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358 | (22) |
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4.3 Unique solvability of problem (4.1) in the strong generalized sense and blow-up of its solutions |
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380 | (5) |
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385 | (6) |
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4.5 Blow-up of solutions of a Sobolev-type wave equation with nonlocal sources |
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391 | (11) |
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4.5.1 Unique local solvability of the problem |
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391 | (7) |
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4.5.2 Blow-up of strong generalized solutions |
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398 | (4) |
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4.6 Blow-up of solutions of a strongly nonlinear equation of spin waves |
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402 | (15) |
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4.6.1 Unique local solvability in the strong generalized sense |
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403 | (9) |
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4.6.2 Blow-up of strong generalized solutions and the global solvability |
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412 | (5) |
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4.6.3 Physical interpretation of the obtained results |
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417 | (1) |
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4.7 Blow-up of solutions of an initial-boundary-value problem for a strongly nonlinear, dissipative equation of the form (4.1) |
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417 | (22) |
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4.7.1 Local unique solvability in the weak generalized sense |
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418 | (17) |
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4.7.2 Unique solvability of the problem and blow-up of its solution for a finite time |
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435 | (4) |
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5 Special problems for nonlinear equations of Sobolev type |
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439 | (104) |
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5.1 Nonlinear nonlocal pseudoparabolic equations |
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439 | (36) |
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5.1.1 Global-on-time solvability of the problem |
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439 | (30) |
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5.1.2 Global-on-time solvability of the problem in the strong generalized sense in the case q ≥ 1 |
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469 | (2) |
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5.1.3 Asymptotic behavior of solutions of problem (5.1), (5.2) as t → +∞ in the case q > 0 |
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471 | (4) |
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5.2 Blow-up of solutions of nonlinear pseudoparabolic equations with sources of the pseudo-Laplacian type |
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475 | (9) |
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5.2.1 Blow-up of weakened solutions of problem (5.77) |
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476 | (1) |
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5.2.2 Blow-up and the global-on-time solvability of problem (5.78) |
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477 | (2) |
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5.2.3 Blow-up of solutions of problem (5.79) |
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479 | (3) |
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5.2.4 Blow-up of weakened solutions of problems (5.80) and (5.81) |
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482 | (2) |
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5.2.5 Interpretation of the obtained results |
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484 | (1) |
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5.3 Blow-up of solutions of pseudoparabolic equations with fast increasing nonlinearities |
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484 | (12) |
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5.3.1 Local solvability and blow-up for a finite time of solutions of problems (5.112) and (5.113) |
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485 | (7) |
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5.3.2 Local solvability and blow-up for a finite time of solutions of problem (5.114) |
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492 | (4) |
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5.4 Blow-up of solutions of nonhomogeneous nonlinear pseudoparabolic equations |
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496 | (7) |
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5.4.1 Unique local solvability of the problem |
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496 | (3) |
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5.4.2 Blow-up of strong generalized solutions of problem (5.154)-(5.155) |
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499 | (3) |
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5.4.3 Blow-up of classical solutions of problem (5.154)-(5.155) |
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502 | (1) |
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5.5 Blow-up of solutions of a nonlinear nonlocal pseudoparabolic equation |
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503 | (8) |
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5.5.1 Unique local solvability of the problem |
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504 | (2) |
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5.5.2 Blow-up and global solvability of problem (5.177) |
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506 | (3) |
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5.5.3 Blow-up rate for problem (5.177) under the condition q = 0 |
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509 | (2) |
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5.6 Existence of solutions of the Laplace equation with nonlinear dynamic boundary conditions |
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511 | (14) |
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5.6.1 Reduction the problem to the system of the integral equations |
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511 | (6) |
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5.6.2 Global-on-time solvability and the blow-up of solutions |
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517 | (8) |
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5.7 Conditions of the global-on-time solvability of the Cauchy problem for a semilinear pseudoparabolic equation |
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525 | (12) |
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5.7.1 Reduction of the problem to an integral equation |
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525 | (2) |
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5.7.2 Theorems on the existence/nonexistence of global-on-time solutions of the integral equation (5.219) |
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527 | (10) |
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5.8 Sufficient conditions of the blow-up of solutions of the Boussinesq equation with nonlinear Neumann boundary condition |
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537 | (6) |
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6 Numerical methods of solution of initial-boundary-value problems for Sobolev-type equations |
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543 | (38) |
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6.1 Numerical solution of problems for linear equations |
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543 | (11) |
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6.1.1 Dynamic potentials for one equation |
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544 | (4) |
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6.1.2 Solvability of Dirichlet problem |
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548 | (6) |
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6.2 Numerical method of solving initial-boundary-value problems for non-linear pseudoparabolic equations by the Rosenbrock schemes |
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554 | (6) |
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6.2.1 Stiff method of lines |
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554 | (1) |
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6.2.2 Stiff systems of ODE and methods of solving them |
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555 | (1) |
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555 | (1) |
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6.2.4 Schemes of Rosenbrock type |
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555 | (2) |
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557 | (3) |
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6.3 Results of blow-up numerical simulation |
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560 | (21) |
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6.3.1 Blow-up of pseudoparabolic equations with a linear operator by the time derivative |
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561 | (5) |
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6.3.2 Blow-up of strongly nonlinear pseudoparabolic equations |
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566 | (9) |
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6.3.3 Blow-up of equations with nonlocal terms (coefficients of the equation depend on the norm of the function) |
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575 | (6) |
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Appendix A Some facts of functional analysis |
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581 | (32) |
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A.1 Sobolev spaces Ws,p (Ω), Ws,p (Ω, and Ws,p (Γ) |
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581 | (2) |
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A.2 Weak and *-weak convergence |
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583 | (1) |
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A.3 Weak and strong measurability. Bochner integral |
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584 | (1) |
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A.4 Spaces of integrable functions and distributions |
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585 | (1) |
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A.5 Nemytskii operator. Krasnoselskii theorem |
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586 | (2) |
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588 | (1) |
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589 | (1) |
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589 | (1) |
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A.9 Weakened solutions of the Poisson equation |
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589 | (2) |
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A.10 Intersections and sums of Banach spaces |
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591 | (1) |
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A.11 Classical, weakened, strong generalized, and weak generalized solutions of evolutionary problems |
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592 | (2) |
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A.12 Two equivalent formulations of weak solutions in L2(0, T; B) |
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594 | (2) |
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A.13 Gateaux and Frechet derivatives of nonlinear operators |
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596 | (8) |
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A.14 On the gradient of a functional |
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604 | (2) |
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A.15 Lions compactness lemma |
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606 | (1) |
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A.16 Browder-Minty theorem |
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607 | (1) |
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A.17 Sufficient conditions of the independence of the interval, on which a solution of a system of differential equations exists, of the order of this system |
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608 | (2) |
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A.18 On the continuity of some inverse matrices |
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610 | (3) |
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613 | (8) |
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B.1 Convergence of the ε-embedding method with the CROS scheme |
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613 | (8) |
| Bibliography |
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621 | (26) |
| Index |
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647 | |
Lisainfo e-raamatute kohta