Category:Fluid dynamics
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subdiscipline of fluid mechanics that deals with fluid flow—the natural science of fluids (liquids and gases) in motion | |||||
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Subcategories
This category has the following 53 subcategories, out of 53 total.
*
A
- Archimedes' principle (11 F)
B
C
- Chaotic mixing (1 F)
- Control volumes in fluid dynamics (1 P, 58 F)
D
- Darcy's Law (17 F)
E
F
- Fluid-structure interaction (5 F)
- Fluidisation (2 F)
H
L
M
N
O
- Oleodinamica (14 F)
P
- Potential flow (78 F)
R
S
- Stuwkracht (3 F)
V
- Viscous fingering (8 F)
- Volutes (pump) (empty)
Media in category "Fluid dynamics"
The following 200 files are in this category, out of 309 total.
(previous page) (next page)- Analysis of supersonic flow past oscillating cascades using linear and nonlinear methods. (IA analysisofsupers00stra).pdf 1,214 × 1,606, 320 pages; 8.1 MB
- Angle màxim en ventall d'extensió de Prandtl-Meyer.png 396 × 350; 11 KB
- Anim Prandtl Tietjens Magnus 01.gif 935 × 596; 1.48 MB
- Anim ProfilSym, smokes.gif 627 × 305; 674 KB
- Anim Soufflerie de Stanton, 1903.gif 548 × 824; 212 KB
- AnimComp Hele-Shaw - Inviscid.gif 632 × 513; 186 KB
- AnimCylindreCuve à eau Prandtl.gif 487 × 273; 113 KB
- AnimEtablissementMagnusPrandtlTietjens.gif 605 × 446; 1 MB
- Averagev.svg 512 × 663; 5 KB
- Ballon de latex plein d'eau.png 502 × 839; 901 KB
- Baseline x-05000.jpg 960 × 720; 48 KB
- Bernoulli-2.jpg 4,000 × 5,194; 3.22 MB
- Bernoullis-principle-forces.svg 369 × 128; 24 KB
- Blasius.PNG 520 × 303; 5 KB
- Blasius1.PNG 520 × 303; 5 KB
- Blast waves.JPG 620 × 330; 36 KB
- Bruhn double venturi, Naca Report 420.png 976 × 438; 311 KB
- Calculation of body diffusion speed in VVD method.png 295 × 236; 13 KB
- Calculation of diffusion speed in VVD method.png 295 × 236; 13 KB
- Capillaryaction.jpg 1,016 × 807; 129 KB
- CaracterísticaBateria+valvula.png 616 × 218; 50 KB
- Cavité de culot sur remorque.png 749 × 778; 27 KB
- CFD.jpg 352 × 326; 22 KB
- Clausius-1-1.jpg 3,324 × 5,260; 2.06 MB
- Clausius-1-2.jpg 2,994 × 4,593; 1.5 MB
- Clausius-2-1.jpg 2,214 × 3,732; 1.05 MB
- Clausius-2-2.jpg 2,872 × 3,973; 1,020 KB
- CLP avec 4 ailerons de différentes tailles selon Mach , d'après Clark De Jonge.png 1,286 × 1,082; 128 KB
- CoeffProp 1 rotor NorsePower, réfVmétéo ou Vapparent.png 695 × 759; 54 KB
- Colisiones binarias de gotas liquidas.png 150 × 130; 14 KB
- CombinedFluidThreadBreakupCylinders.svg 585 × 832; 22 KB
- Comparison of velocity profile of Womersley flow.svg 720 × 540; 58 KB
- Computational fluid dynamic model of steam ingestion into a transonic compressor (IA computationalflu109454785).pdf 1,275 × 1,650, 124 pages; 1.7 MB
- Computational Fluid Dynamics Requirements at the Naval Postgraduate School (IA computationalflu14hirs).pdf 1,197 × 1,587, 62 pages; 2.77 MB
- Contraction 2D, d'après Rouse.png 1,128 × 692; 59 KB
- Couette Flow Example.png 452 × 201; 8 KB
- Couple de rotation du rotor Magnus, par A. Lafay.gif 498 × 811; 52 KB
- Coussin d'air 1.JPG 262 × 155; 6 KB
- Coussin d'air 2.JPG 590 × 293; 11 KB
- CrossMicroMixer.svg 231 × 86; 4 KB
- Curvature and contact angle.png 264 × 365; 7 KB
- Curveball-magnus-effect.jpg 838 × 700; 126 KB
- Cx, Cy et Finesse, Effet Magnus, Reid.png 772 × 518; 34 KB
- Cône de rétreint autour de sa pointe.png 556 × 457; 11 KB
- Cône de rétreint, stabilité.jpg 960 × 1,280; 76 KB
- Darcys lov.png 1,227 × 717; 33 KB
- Decalage loi log.jpg 1,107 × 846; 58 KB
- Decelerators, Goodyear Aerospace Corp.png 819 × 667; 128 KB
- Decomposition de domaine rugosite.jpg 700 × 500; 18 KB
- Diaorario.gif 324 × 200; 2 KB
- Differential voltage experiment.JPG 2,448 × 3,264; 1.84 MB
- Dispositif de mesure des pressions de Du Buat.png 348 × 631; 29 KB
- Distribution des pressions sur la torpille Mk 25.gif 576 × 780; 267 KB
- DMR Schnitt.svg 184 × 364; 14 KB
- Dolphin V.png 869 × 479; 452 KB
- Ecoulement Hele-Shaw sur entretoise.png 857 × 528; 270 KB
- Ecoulement Stokes sphère, couche limite.png 896 × 436; 15 KB
- Edge wave elevation.png 1,200 × 900; 50 KB
- Effet Magnus inverse, Thom et Sengupta, ARC R&M 1520.png 615 × 767; 247 KB
- Effet Magnus sur sphère, Cx et Cy selon Hoerner Drag.gif 809 × 598; 35 KB
- Energie économisée, E-ship 1 Enercom, p un rotor Magnus.png 668 × 694; 39 KB
- Energy vs. Particle Separation.png 325 × 262; 39 KB
- Enfoncement dynamique du Jean-Bart, Le Magasin Pittoresque, 1872.jpg 1,038 × 825; 648 KB
- Envelope of the disturbance emitted at successive times.svg 504 × 351; 3 KB
- Experiment to determine the trajectory of an outflowing jet.jpg 3,456 × 2,304; 3.34 MB
- Experimental setup for upstream contamination.gif 1,596 × 692; 31 KB
- FDG operating principles.jpg 940 × 644; 111 KB
- FDG tomato paste.jpg 505 × 505; 130 KB
- Fig .1 Smoke flow through honeycomb.jpg 1,152 × 648; 64 KB
- Figura 2.1.png 712 × 303; 96 KB
- Flow around sphere, being visualized by seeding flow with smoke.jpg 2,048 × 1,536; 932 KB
- Flow field measurements using hotwire anemometry. (IA flowfieldmeasure00dore).pdf 1,193 × 1,583, 116 pages; 5.76 MB
- Flow field measuremnts of an airfoil with deflected spoiler using a two-component LDV sys (IA flowfieldmeasure00fore).pdf 1,187 × 1,593, 86 pages; 4.21 MB
- Flowfield measurements in the wake of a missile at high angle of attack. (IA flowfieldmeasure00john).pdf 1,200 × 1,575, 86 pages; 3.71 MB
- Flowfield measurements in the vortex wake of a missile at high angle of attack in turbulence. (IA flowfieldmeasure00lung).pdf 1,197 × 1,606, 152 pages; 7.9 MB
- Flowfield study of a close-coupled canard configuration. (IA flowfieldstudyof00olea).pdf 1,106 × 1,552, 104 pages; 5.7 MB
- Flow generation in a novel centrifugal diffuser test device. (IA flowgenerationin00vido).pdf 1,187 × 1,560, 218 pages; 6.41 MB
- A flow model of the U.S. Army Field Grade Officer Corps to produce the five Year Promotion Plan. (IA flowmodelofusarm00thom).pdf 1,158 × 1,566, 158 pages; 6.43 MB
- Flow modification over a backward facing step (IA flowmodification1094534915).pdf 1,275 × 1,650, 101 pages; 3.01 MB
- The flow of dilute polymer (Polyox WSR-301) solutions past bluff bodies in the drag transition region. (IA flowofdilutepoly00rain).pdf 1,181 × 1,687, 476 pages; 10.73 MB
- Flow visualization of time-varying structural characteristics of Dean vortices in a curved channel. (IA flowvisualizatio00bell).pdf 1,220 × 1,616, 120 pages; 16.79 MB
- Flow visualization of the airwake of an oscillating generic ship model. (IA flowvisualizatio00bisk).pdf 1,185 × 1,566, 70 pages; 5.06 MB
- Flow visualization of dynamic stall on an oscillating airfoil. (IA flowvisualizatio00bryd).pdf 1,166 × 1,566, 126 pages; 5.51 MB
- Flow visualization by laser sheet- (IA flowvisualizatio00chle).pdf 1,204 × 1,562, 44 pages; 3.21 MB
- Flow visualization on a small scale- (IA flowvisualizatio00hixs).pdf 1,214 × 1,618, 58 pages; 4.66 MB
- Flow visualization studies of a sideslipping, canard-configured X-31A-like fighter aircraft model. (IA flowvisualizatio00kimc).pdf 1,172 × 1,566, 138 pages; 12.09 MB
- Flow visualization studies of the XFV-12A. (IA flowvisualizatio00pete).pdf 1,227 × 1,645, 190 pages; 5.06 MB
- A flow visualization study of laminar-turbulent transition in a curved channel. (IA flowvisualizatio00sied).pdf 1,402 × 1,879, 144 pages; 7.61 MB
- Fluid Christmas Tree.jpg 6,769 × 10,194; 52.84 MB
- Fluid-dynamics-continuity-equation.svg 508 × 190; 35 KB
- Fluide en équilibre dans un champ de pesanteur.png 404 × 279; 16 KB
- A fluidic control system for a jet-flap airfoil. (IA fluidiccontrolsy00mela).pdf 1,129 × 1,564, 116 pages; 1.97 MB
- Flujolaminaryturbulento.png 906 × 413; 13 KB
- Flusso stazionario.gif 382 × 214; 2 KB
- Flüssigkeitsstrahl(schematisch).jpg 1,448 × 362; 53 KB
- Force de Magnus sur cylindre, dont inverse, A. Lafay,1910.png 831 × 573; 47 KB
- Force normale sur tranche de corps élancé.png 992 × 595; 45 KB
- ForcesAtContactLine.png 400 × 200; 4 KB
- Friedlander waveform.jpg 800 × 600; 149 KB
- Graph2 fluid.jpg 746 × 704; 27 KB
- GZkrommes.PNG 525 × 283; 13 KB
- Hairpinvortex.jpg 1,024 × 422; 27 KB
- Hele-Shaw demi cylindre.gif 632 × 513; 91 KB
- HFRR en.svg 520 × 348; 28 KB
- Hfrr.svg 520 × 348; 26 KB
- Hiemenz flow speed.jpg 1,542 × 1,542; 70 KB
- Hiemenz flow.jpg 1,542 × 1,542; 67 KB
- High pressure jet zones.png 870 × 476; 146 KB
- Hughes ship resistance.PNG 1,156 × 760; 49 KB
- InternalBoundaryLayerSeparation MWinterSketch 04212023.jpg 2,504 × 1,168; 173 KB
- Kehrwasser.png 3,643 × 1,884; 130 KB
- Kelvin Wake Fr=05.png 1,100 × 801; 151 KB
- Kelvin Wake Fr=1.png 1,100 × 801; 158 KB
- Kelvin Wake Fr=2.png 1,100 × 801; 159 KB
- Kolmogorov-in-qf.png 2,126 × 1,303; 121 KB
- Laag vrijboord.PNG 418 × 283; 6 KB
- Lagrange tube.svg 647 × 182; 39 KB
- Lamb-Chaplygin dipole.png 787 × 787; 153 KB
- Le pire.jpg 803 × 532; 90 KB
- Liquid Fishbones.jpg 5,748 × 8,627; 35.2 MB
- Liquid Heart.jpg 6,566 × 4,158; 21.13 MB
- Lubrification.png 702 × 382; 14 KB
- MacCormack scheme representation.png 515 × 275; 14 KB
- Many Superwalkers.png 1,092 × 708; 665 KB
- Manège aérodynamique, whirling arm, de Robins, 1805.png 962 × 548; 150 KB
- Marot Jar Diagram.png 300 × 310; 16 KB
- MasVolu1.jpg 1,569 × 578; 342 KB
- Meniscus afm picture 2.png 720 × 540; 44 KB
- Mich01.JPG 946 × 742; 90 KB
- Microfluidics.jpg 1,033 × 1,291; 753 KB
- Milk vortices.jpg 3,264 × 1,840; 1.14 MB
- Mixing in Porous Medium.jpg 1,340 × 2,746; 1.15 MB
- MMAMAD.jpg 883 × 851; 81 KB
- Modèles de dirigeables de Fuhrmann.jpg 665 × 1,005; 324 KB
- My book-0 (science).jpg 331 × 441; 40 KB
- Ménisque d'eau dans un récipient en verre.PNG 484 × 301; 7 KB
- NCAM.png 223 × 264; 20 KB
- Neutral squirmer, lab frame.png 742 × 953; 69 KB
- Neutral squirmer, swimmer frame.png 742 × 953; 51 KB
- NOL 1000-foot Hyperballistics Range, inside.png 962 × 806; 1.44 MB
- Notations in method of viscous vortex domains (VVD).png 500 × 300; 47 KB
- Ondes-Stokes.png 771 × 388; 5 KB
- Ontbinding spanningstensor.jpg 804 × 833; 41 KB
- Oseengrad.png 763 × 543; 13 KB
- Osiadanie statku.svg 1,052 × 750; 52 KB
- Panorama CPA de Corps Élancés.png 759 × 670; 33 KB
- Particule de fluide en repérage cylindro-polaire.png 398 × 256; 36 KB
- Particule de fluide en repérage sphérique.png 387 × 308; 26 KB
- Particule de fluide parallélépipédique en repérage cartésien.png 361 × 201; 6 KB
- Pas de portance fuselage.png 1,040 × 524; 24 KB
- Passive particle, lab frame.png 742 × 953; 43 KB
- Passive particle, particle frame.png 742 × 946; 59 KB
- Pendule balistique de Benjamin Robins.png 577 × 969; 340 KB
- Pitot-tube.svg 665 × 419; 15 KB
- Pivoted cylinders.png 1,441 × 710; 807 KB
- Plugflow.jpg 217 × 104; 3 KB
- Poi.pdf 766 × 614; 25 KB
- Poiseuille dispersion curve OS.jpg 561 × 420; 27 KB
- Portance de Magnus dont Riegels citant Küchemann et Busemann.png 694 × 628; 39 KB
- Portance et déportance des cônes.png 779 × 402; 14 KB
- Portance linéaire du fuselage cylindrique, Darling.png 534 × 763; 82 KB
- Pourcentage d'énergie économisée par un rotor de l'E-ship 1.png 686 × 654; 43 KB
- PRA for ABC.pdf 975 × 841; 497 KB
- Prandtl Tietjens Effet Magnus établi.png 1,000 × 608; 946 KB
- Pressure distribution, torpedo Mk 25.gif 576 × 770; 285 KB
- Pressure plot.png 1,169 × 817; 70 KB
- Principe de la Lfv.png 660 × 356; 11 KB
- Prohaska plot.PNG 1,239 × 811; 30 KB
- Préfiguration de la Couche Limite par Saint-Venant.png 607 × 690; 78 KB
- Pseudo Pression dynamique de Mr. Rouse, citée par Smeaton, av deg. Beaufort.png 584 × 1,218; 1.13 MB
- Pseudo Pression dynamique de Mr. Rouse, citée par Smeaton.png 586 × 1,218; 1.04 MB
- PSM V10 D745 The effects of fluid dynamics on gravity.jpg 1,017 × 784; 89 KB
- PSM V10 D746 Demonstration of fluid dynamics.jpg 847 × 720; 53 KB
- PSM V10 D747 Demonstration of fluid dynamics.jpg 884 × 684; 54 KB
- PSM V10 D748 Fluid dynamics overcoming gravity.jpg 818 × 582; 36 KB
- PSM V10 D748 The effects of fluid dynamics on gravity.jpg 533 × 671; 25 KB