Lin C., Segel L. — Mathematics applied to deterministic problems in the natural sciences :: Электронная библиотека попечительского совета мехмата МГУ

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Lin C., Segel L. — Mathematics applied to deterministic problems in the natural sciences

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Название: Mathematics applied to deterministic problems in the natural sciences

Авторы: Lin C., Segel L.

Аннотация:

Addresses the construction, analysis, and interpretation of mathematical models that shed light on significant problems in the physical sciences.

The authors' case studies approach leads to excitement in teaching realistic problems. The exercises reinforce, test and extend the reader's understanding. This reprint volume may be used as an upper level undergraduate or graduate textbook as well as a reference for researchers working on fluid mechanics, elasticity, perturbation methods, dimensional analysis, numerical analysis, continuum mechanics and differential equations.

Язык:

Рубрика: Математика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1988

Количество страниц: 634

Добавлена в каталог: 28.03.2015

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Slime mold amebae, aggregation of      22—31
Small box method      444—446
Small terms, neglect of      210
Smith, G.M.      222
Smith, J.M.      345
Smith, W.      106
Smoothness, piecewise      131
Sobolev, S.L.      170
Sound speed      377 542
Source point      574
Source solution      103
Spatial description      420
Spatial variables      357 420
Specific heat      481
Sphere, cooling of      129
Sphere, flow past      559—560
Sphere, Green’s function for      576—577
Spherical waves      543
Stability      16 28 58 322—324
Stability in numerical analysis      154
Stability in population dynamics      533—534
Stability of reaction-diffusion equations      537—539
Stability of two-layer inviscid flow      535—536
Stability of viscous flow model      531 534—535
Stagnation points      558
Stakgold, I.      296
Standing gradient flow      245
Standing wave      381 403 544
Star-shaped regions      436
state variables      492
Stationary time sequence      176—178
Steady flows      421 423
Stefan's law      149
Stieltjes integral      176
Stirling’s approximation      81 86—89 102
Stoker, J.      344
Stokes’ law      78 204—205
strain      363
Stratified fluid      516
Stream function      511
Streamlines      422—424
Stress      358—360 454
Stress component      361
Stress in motionless fluids      505—510
Stress in one-dimensional elastic bar      364
Stress tensor      458—461
Stress-strain relation      364
Sturm — Liouville theory      159 167 404—405 521 529
Substantial derivative      see "Material derivative"
Substrate      304
Successive approximations      see "Iteration"
Superposition      39 103 114
Surface traction      358
Symmetry, in perturbation calculations      232
Systems of ordinary differential equations, theorems for      57—65
Taylor instability      536
Taylor series      46 47
Tensors      449
Term-by-term integration      89
Theoretical science, contrasted with applied mathematics      7
Thermal diffusivity      118

Thermodynamics      491—501
Thermostatics      474
Thring, M.W.      203
Time scale      128
Titchmarsh, E.C.      147
Tormey, J.      245
torque      465
Trajectories      336
Transient      124
Translation invariance      103
Transmitted wave      381
Trial and error      222
Triangle, diffusion from      106—108
Trigonometric identities      229
Trivial solution      125 157
Truesdell, C.      22 33 412.501
Truncated sinusoid, Fourier analysis of      173—176
Tseng, H.      466
Tsuchiya, H.M.      305
Turing, A.      537
Uniform approximation      294—295 310
Uniform validity      289—290
Uniqueness      58 60 122—123
Unorthodoxy      218—221
Unstable equilibrium      515
Unstirred layers      261
van Ness, H.C.      491
Variance      76—77
Vasil’eva, A.B.      315
Vector      488
Vector, product      465
Velocity      352 420
Velocity potential      512—513 558
Velocity scale      214
Verhulst — Pearl equation      324
Virtual displacement      407
Vitt, A.      344
von Karman, T.      8
von Neumann, J.      32
Watson, G.S.      106
Wave equation      377—378 542
Wave function      396
wave number      380
Wave number vector      522
Wavelength      380
Wedge, propagation of discontinuities in      399
Weighting function      145
Weinbaum, S.      275
Well-posed problem      123
Whittaker, E.T.      69
Widder, D.      176
Wigner, E.P.      33
Wilson, C.      37
Wimp, J.      76
Wolford, J.C.      222
Woltjer, L.      16
Work      401—402 493
Work-energy principle      403
Wretched consistent approximations      189 231
Young’s modulus      364—365
Zermelo paradox      109
Zero of a function      190—191

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