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Gurevich M.I. — The theory of jets in an ideal fluid
Gurevich M.I. — The theory of jets in an ideal fluid



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Название: The theory of jets in an ideal fluid

Автор: Gurevich M.I.

Язык: en

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1966

Количество страниц: 409

Добавлена в каталог: 24.03.2013

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Kirchhoff's flow pattern for cavities      127
Kirchhoff's method for flow past plate      9—16
Kirchhoff's method for flow past plate, coefficient of resistance      16
Kirchhoff's method for flow past plate, pressure      14—16
Lagrange's integral for unsteady flow      276
Lateral flow from a channel      52—59
Lateral flow from a channel, discharge rates      54
Lateral flow from a channel, jet contraction coefficient      57—59
Lateral flow from a channel, projection of orifice      57
Lateral flow from a channel, width of channel      56
Lavrent'ev's work on flow past obstacles      117—119
Law of variation in velocity for cavitation      138 279
Levi-Civita's method      91—99
Levi-Civita's method, complex potential      91—95
Levi-Civita's method, contour form      95
Levi-Civita's method, moment of forces      96—97
Levi-Civita's method, regions of variation      91
Levi-Civita's method, resistance      99
Levi-Civita's method, resultant force vector      95—98
Liouville's theorem      31 34
Mach number      130
Method of analytic continuation      115
Moment of a dipole      3
Nekrasov's formula      113
Penetration of armour plating      254—245
Peres's approximations for subsonic gas flow      343
Period parallelogram      226
Perturbed flows      287—304
Perturbed flows, boundary conditions      288—291
Perturbed flows, complex potential      287—295 303
Perturbed flows, harmonic vibrations      292—293 296
Perturbed flows, regions of variation      287 290 294
Perturbed flows, steadiness of certain flows      300—304
Perturbed flows, suddenly opening orifice      296—299
Pitch of grating      191
Planing on fluid of finite depth      225—233
Planing on fluid of finite depth, normal force      230—231
Planing on fluid of finite depth, plates in tandem      231—233
Planing on fluid of finite depth, regions of variation      220 231—232
Planing on fluid of finite depth, thickness of jet      226 229—231
Planing phenomenon      220—225
Planing phenomenon, coefficient of normal force      224
Planing phenomenon, Kalinin's formula      224
Planing phenomenon, wetted length of plate      223
Plate in unsteady flow      275—281
Plates planing in tandem      231—233
Plates planing in tandem, flow pattern      231
Point of separation      8
Polygonal contours      31
Pressure of plate      20—21
Proper contour      99
Rayleigh flow      86
Rayleigh's formula      71
Re-entrant jet pattern      152—156
Resistance of asymmetrical wedge      73—75
Resistance of symmetrical wedge      72—73
Riemann — Schwarz principle      5
Riemann — Schwarz principle, observations on      5—7
Ryabushinskii's flow pattern      139—142
Salamotov's method for efflux from funnel      355—357
Salamotov's method for efflux from funnel, stream function      356
Schwarz — Christofiel formula      17—19 22
Schwarz's formula      92
Sedov's equation for gas flow      346—347
Sedov's method for flow past obstacles      119—123
Sedov's method for grating      198—199
Semi-infinite strip in perturbed flow      294—296
Semi-infinite strip in perturbed flow, coefficient of drag      296
Sink      3
Sink inside circle      5
Source      4
Source in bounded fluid      3—4
Source in bounded fluid, complex potential      3
Source inside circle      5
Special points      31—32
Stagnation zone      301
Steady flow      1—9
Steady flow, boundary conditions      8—9
Steady flow, complex velocity      2
Steady flow, flux of fluid      2
Steady flow, source inside circle      5
Steady flow, velocity potential      1
Stream function      1
Submerged curved hydrofoil      240—245
Submerged curved hydrofoil, complex potential      242
Submerged curved hydrofoil, complex velocity      241
Submerged curved hydrofoil, regions of variation      241
Submerged flat hydrofoil      233—240 244—245
Submerged flat hydrofoil, complex velocity      236
Submerged flat hydrofoil, drag      239
Submerged flat hydrofoil, Fedorov'a flow pattern      234
Submerged flat hydrofoil, moment of resultant force      240
Submerged flat hydrofoil, regions of variation      235—236
Submerged flat hydrofoil, suctional force      238—239
Submerged flat hydrofoil, Weinig's flow pattern      234
Submersion of wedge      304—312
Submersion of wedge, added mass      312
Submersion of wedge, angle of careening      304 312
Submersion of wedge, boundary conditions      300—307
Submersion of wedge, drag coefficient      312
Submersion of wedge, regions of variation      306
Submersion of wedge, resultant force      310—312
Submersion of wedge, vertical velocity      304
Subsonic flow      314
Subsonic flow in compressible fluid      333—334
Suction force      86
Supersonic flow      314
Symmetrical cavitational flow past wedge in channel      207—214
Symmetrical cavitational flow past wedge in channel, cavitational number      209 211—213
Symmetrical cavitational flow past wedge in channel, distance between walls      210
Symmetrical cavitational flow past wedge in channel, drag coefficient      210 212—214
Symmetrical cavitational flow past wedge in channel, Kirchhoff pattern      208
Symmetrical cavitational flow past wedge in channel, parameters      209
Symmetrical cavitational flow past wedge in channel, regions of variation      207—208
Symmetrical flow past curvilinear contour      204—206
Symmetrical flow past curvilinear contour, complex potential      205
Symmetrical flow past curvilinear contour, regions of variation      204
System of developed cavitation      126
Theory of steady flow      1—7
Theory of steady flow, basic concepts      7—9
Trefftz method of axisymmetric flow      349—355
Trefftz method of axisymmetric flow from a circular orifice      351—355
Trefftz method of axisymmetric flow from a circular orifice, coefficient of compression      335
Trefftz method of axisymmetric flow from a circular orifice, cylindrical coordinates      334
Trefftz method of axisymmetric flow from a circular orifice, velocity potential      352—353
Tricomi's equation of gas flow      346—347
Tscitlin's formula      184
Uniqueness of solution of motion past obstacle      115—116
Velocity of flow      7
Villat'a result      103
Villat's integro-differential equation      110—119
Villat's integro-differential equation, curvature of contour      112—113
Von Karman vortex streets      128—129
Von Mises's results for contraction coefficient      47—48
Vortex      3
Vortex in free jet      257—261
Vortex in free jet, complex potential      257—258
Vortex in free jet, force      261
Vortex, complex potential      4
Vortices in a bounded fluid      3—5
Vortices in a bounded fluid, complex potential      3
Walchner's cavitational experiments      127—128
Wedge with constant submersion velocity      308—312
Weightless fluid flow      380—382
Weightless fluid flow, complex potential      381
Weinig'a flow pattern for hydrofoil      234
Weisbach's data for circular funnel      46
wronskian      329
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