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Carslaw H.S. — Conduction of Heat in Solids
Carslaw H.S. — Conduction of Heat in Solids



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Название: Conduction of Heat in Solids

Автор: Carslaw H.S.

Аннотация:

This classic account describes the known exact solutions of problems of heat flow, with detailed discussion of all the most important boundary value problems.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: second

Год издания: 1959

Количество страниц: 510

Добавлена в каталог: 17.02.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Sphere (general case) with prescribed surface temperature      250-1
Sphere (general case) with radiation      382
Sphere (general case), regions bounded by surfaces of the spherical polar coordinate system with arbitrary initial temperature      251-3 382
Sphere (radial flow) with heat generation      242-6 288
Sphere (radial flow) with prescribed initial and surface temperatures      233-7 348 366
Sphere (radial flow) with prescribed initial temperature and radiation at the surface      237-8 367
Sphere (radial flow), composite spherical solids      351-2
Sphere (radial flow), determination of thermal conductivity from      238
Sphere (radial flow), hollow sphere with various surface conditions      246-7 350 367
Sphere (radial flow), region bounded internally by a sphere with prescribed initial and surface temperatures      247-8 349-50 368
Sphere (radial flow), steady temperature      230-2
Sphere (radial flow), with other boundary conditions      240-2 403
Spicer, H. C.      3
St$\ddot{o}$rmer, R.      415
Starr, C.      23
Staton, J.      199
Stead, G.      156
Steady temperature      421
Steady temperature for radial flow in an infinite circular cylinder      189-93
Steady temperature with conductivity a function of temperature      11
Steady temperature, between two circles      436- 9 449-51
Steady temperature, due to sources between parallel planes, and in a finite cylinder      423
Steady temperature, in a circle      434
Steady temperature, in a composite slab      92
Steady temperature, in a composite wire      156
Steady temperature, in a finite rod      139-40
Steady temperature, in a moving rod      148 209
Steady temperature, in a polygon      441-7 452-4
Steady temperature, in a rectangle      166-9 170
Steady temperature, in a rectangular parallelepiped      177-80
Steady temperature, in a sector of a circle      433
Steady temperature, in a slab with variable thermal properties      91
Steady temperature, in a sphere      230-2 250
Steady temperature, in a thin rectangular plate with radiation from its surface      169
Steady temperature, in a wedge      434 462
Steady temperature, in a wire carrying electric current      151-6
Steady temperature, in an ellipse      439-40
Steady temperature, in an infinite circular cylinder with arbitrary surface temperature      208
Steady temperature, in an infinite medium due to heat- supply over a circular area      215-17 461
Steady temperature, in cooling fins      141-3
Steady temperature, in finite and semi-infinite cylinders      217-24
Steady temperature, in flow to a nearly plane surface      424
Steady temperature, in media containing ellipsoidal inclusions      425-8
Steady temperature, in regions of technical importance      429-30
Steady temperature, in the infinite rectangular solid      162- 6
Steady temperature, iu an infinite circular cylinder moving in the direction of its axis      209
Steady temperature, over a rectangle      265
Steady temperature, thermal resistance in steady flow      92 430
Steady temperature, use of conjugate functions in problem* on      431-54
Steady temperature, use of integral transforms      461-2 463
Steady temperature, use of numerical methods      477
Stefan, J.      282
Stefan, problem, of      282
Stenger, F.      39
Stephens, R. W. B.      334
Stevenson, A. B.      411
Stokes, G. G.      38 65
Straneo, P.      157
Strutt, M. J. O.      191
Surface conditions      see Boundary conditions
Surface conductance      19
Surface conductance, numerical values of      20-21
Surface diffusion      23-24 374-5
Surface skin of relatively poor conductor      20 323
Surface skin of relatively poor conductor of relatively good conductor      23-24 374-5
Surface skin of relatively poor conductor, at the surface of separation of two media      23
Sutton, O. G.      412
Sutton, W. G. L.      412
Synge, J. L.      14
Szalay, L. v      223
Talbot, A.      246
Taylor, G. I.      63
Taylor, J. B.      154
Terent$\acute{e}$v, N.      484
Terzaghi, K.      83
Thaler, G. J.      407
Thermal ellipsoid      49
Thermal properties varying with temperature or position      10-12 89-91 93 190 412-15 476
Thermal resistance at a surface      19 20
Thermal resistance, at a junction      217
Thermal resistance, between isothermal surfaces      447-54
Thermal resistance, calculation from electrostatic or electrolytic measurements      430
Thermal resistance, cylinder      190
Thermal resistance, general case      430
Thermal resistance, in a composite slab      92
Thermal resistance, sphere      232
Thermometric conductivity      9
Thews, G.      28 204 223
Thiele, E. W.      393
Thiruvenkatachar, O. R.      346
Thom, R. J.      191
Thoma, E.      426
Thomas, H. C.      394
Thomas, P. H.      216
Thompson, S. P.      39
Thomson effect      150
Thomson, J. J.      135 136 441 442
Tiller, W. A.      389
Time lag in establishing the steady state      402-4
Titchmarsh, E. C.      38 54 56 58 166 217 334 455 457 459
Todd, G. W.      135
Tr$\ddot{a}$nkle, E.      306
Trabant, E. A.      266
Transcendental equations occurring in conduction of heat, numerical values of roots of      491-3
Transcendental equations occurring in conduction of heat, reality of roots of      119 324-5
Tranter, C. J.      15 88 217 229 346 348 455 477
Tricomi, F.      457
Trigger, K. J.      265 270
Turner, L. B.      412
Tychonoff, A.      38
Tyson, H.      405
Uniqueness of solutions      35-37
Urry, W. D.      253 254
van der Held, E. F.      9 345
van Dusen, M. S.      11
van Gijn, G.      393
van Gorcum, A. H.      109 193
van Orstrand, N. E.      80 237 244 308
Vasileff, H. D.      202
Vemotte, P.      11 112
Verdet, E.      149
Vodicka      109 193
Voigt, W.      38 45
Volterra, V.      426
von Bertele, H.      248
von Lang, V.      46
von Neumann, J.      471
W.B.F.      x 196 201 204 210 214 216 249 258 259 267 278 328 335 368 372 377 412 420 458 464 488
Wagner, K. W.      297
Wagstaff, J. B.      11 283
Waidelich, D. L.      400
Walters, A. G.      334
Wasserburg, G. J.      132
Watson, G. N.f      96 95 197 248 249 274
Wave trains, method of      272
Weaver, W.      23
Weber, H.      28 107 146 225 282 355
Weber, H. F.      228
Weber, R.      239
Weber, S.      153 154
Webster, A. G.      354
Wedge, Green’s functions for      378-80
Wedge, steady temperature in      434 462
Wedge, variable temperature in      277-81 419
Weinberg, A.      225
Weinreich, W.      149 151 157
Well-stirred fluid, boundary condition at contact with      22
Werner, J. H.      23 290
Whipple, R. T. P.      24
Whitehead, S.      262 344
Whittaker, E.      96 248 249 274
Widder, D. V.      38
Wiedemann, G.      135 149
Wiles, G. G.      387
Williamson, E. D.      63 104 185
Wilson, H. A.      13 210 266
Wilson, W. G.      190
Wing, G.      375
Winkelmann, A.      135 136
Winter, R.      140
Wintergerst, E.      159
Wintner, A.      38
Wire heated by electric current, differential equations      149-50
Wire heated by electric current, steady temperature in a composite wire      156-7
Wire heated by electric current, steady temperature with a power law of radiation      154-6
Wire heated by electric current, steady temperature, determination of thermal conductivity from      151-4
Wire heated by electric current, variable temperature      157-9
Wolf, F.      21
Wolfe, W. A.      411
Womersley, J. R.      469
Woodward, R. S.      86
Wooster, W. A.      38 39 41
Worthing, A. G.      156 191
Young, G.      217
Young, W. H.      195
Zimmerman, J. E.      66
Zobel, O. J.      466
Zwick, S. A.      334
‘Radiation’ boundary condition      18
1 2 3 4
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