Bibliografía. Fluidos

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Estática de fluidos
Dinámica de fluidos
Tensión superficial

marca.gif (847 bytes)Bibliografía


Bauman R. P., Schwaneberg R. Interpretation of Bernoulli's Equation. The Physics Teacher, V-32, November 1994, pp. 478-488.

Bauman R. P: An alternative derivation of Bernoulli's principle. Am. J. Phys. 68 (3) March 2000, p. 288-289

Behroozi F., Lambert B. A simple problem in hydrodynamics with a surprising solution. The Physics Teacher Vol 35, may 1997, pp. 318-319

Behroozi F., Mohazzabi P., McCrickard J. P., Remarkable shapes of a catenary under the effect of gravity and surface tension. Am. J. Phys. 62 (12) December 1994, pp. 1121-1128

Bierman J, Kincanon E. Reconsidering Archimedes’ principle. The Physics Teacher, Vol 41, Setember 2003, pp. 340-344.

Bohn J. L., Nadig F. H., Hydrodynamic model for demostrations in radioactivity. Am. J. Phys. 22 (1954), pp. 320-323

Cerny L. C. Absolute viscosity of water. A student experiment. Am. J. Phys. 29 (1961), pp 708-709

Cronin D. J., Temperature and pressure dependence of viscosity of gases. Am. J. Phys. 33 (1965) pp. 835-840

Denardo B., Barber B., Folley C., Wright W., Nonfrictional hysteresis in a rotating U-tube. Am. J. Phys. 57 (12) December 1989, pp. 1126-1130

Digilov R. M. Reiner M., Weight-controlled capillary viscometer. Am. J. Phys. 73 (11) NOvember 2005, pp. 1020-1022

Duffy B. A bifurcation problem in hydrostatics. Am. J. Phys. 61 (3) March 1993, pp. 264-269

Elkarim A. A., A new type of viscosimeter. Am. J. Phys. 16 (9) December 1948, pp. 489-490

Finney G.A., Analysis of water-propelled rocket: A problem in honors physics. Am. J. Phys. 68 (3) March 2000, pp. 223-227.

Franco A. Analogías Físicas (Mecánica, Electricidad, Fluidos) .Documentación E.I. (Enseñanzas Integradas).Vol 6 (3),1982, págs. 63-69

Gaffney C. The hydrostatics of trapped bubbles in fluids. The Physics Teacher, vol 38, November 2000, pp. 458-460

Graf  E. H., Just what dis Archimedes say about bouyancy?. The Physics Teacher Vo 42, May 2004, pp. 296-299

Gilson J. E., Boedtker O., A damped harmonic motion experiment for use in undergraduate general Physics laboratories. Am. J. Phys. 37 (11) November 1969, pp. 1157-1158

Greenslade T. B. Simulated secular equilibrium. The Physics Teacher, Vol 40, January 2002, pp. 21-23.

Grubelnik V., Marhl M., Drop formation in a falling stream of liquid. Am. J. Phys. 73 (5) May 2005, pp. 415-419

Güemez J, Fiolhais C, Fiolhais M. The Cartesian diver and the fold catastrophe. Am. J. Phys. 70 (7) July 2002, pp. 710-714.

Güemez J, Fiolhais C, Fiolhais M. A demostration apparatus for the cartesian driver. The Physics Teacher, vol 41, November 2003, pp. 495-496

Guerra D., Plaisted A., Smith M., A Bernoulli's law lab in a bottle. The Physics Teacher, Vol 43, October 2005, pp. 456-459

Hageseth G. T., Surface and kinetic energy densities: A fluid dynamics laboratory exercise. Am. J. Phys. 54 (11) November 1986, pp. 1011-1014

Hibberd F. H., A simple arrangement for  a rotating cylinder viscosimeter. Am. J. Phys. 20 (1952) , pp. 134-135

Howie. A basic surface tension apparatus for educational purposes. Phys. Educ. Vol-17 (1982), pp. 274-277.

Humbert R., Water nozzles. The Physics Teacher, Vol 43, December 2005, pp. 604-607

Keeports D. How does the potencial energy of a rising helium-filled balloon change?. The Physics Teacher, Vol 40, March 2002, pp. 164-165.

Kernell R. L. Simplified hydrostatic paradox. Am. J. Phys. 53 (11) November 1985, pp. 1106

Kofsky, I. A Sophomore laboratory experiment on determining γ for air.  Am. J. Phys. 17 (1949) pp. 430-431

Lapidus I. R. Problem: oscillating buoyant sphere.  Am. J. Phys. 54 (9) September 1986. Enunciado en pág 831, Solución en pág. 849

Leroy B.,  Archimedes principle: a simple derivation. Eur. J. Phys. 6 (1985) pp. 56

López R, Martín L, Quirós E., Padilla I., Cazorla F. J., López A. Cómo aplicar el método científico en el aula: el diablillo de Descartes. Revista Española de Física, Vol 13, nº 3, 1999, págs, 47-49

Loverude M. E., Kautz C. H., Heron P. R. Helping students develop an understanding of Archimedes' principle . I. Research on student understanding. Am. J. Phys. 71 (11) November 2003, pp. 1178-1187.

Loverude M. E., Kautz C. H., Heron P. R. Helping students develop an understanding of Archimedes' principle . II. Development of research-based intructional materials. Am. J. Phys. 71 (11) November 2003, pp. 1188-1195..

Mak S.Y., Wong K. Y., The measurement of the surface tension by the method of direct pull. Am. J. Phys. 58 (8) August 1990, pp. 791-792.

Maroto, J. A, de Dios J., de las Nieves F. J. Utilización de un frasco de Mariotte para el estudio experimental de la transición de régimen laminar a turbulento. Revista Española de Física, vol-13, nº 5, págs 42-47.

Maroto J. A., de Diso J., de las Nieves F. J. Use of a Mariotte bottle for the experimental study of the transition from laminar to turbulent flow. Am. J. Phys. 70 (7) July 2002, pp. 698-701

Moralo M. I., Montanero J. M. Estudio elemental de perfiles aerodinámicos. Revista Española de Física 15, nº1, 2001, págs 32-35.

Moringo F. B., Fluid oscillations in a U tube. Am. J. Phys. 40 February 1972, pp. 350-351

Mungan C. E. Toward a broad view of bouyancy. The Physics Teacher, Vol 41, May 2003, pp. 298-306

Nienart L., Measuring the viscosity of gases. Am. J. Phys. 62 (6) June 1994, pp. 566-568

Njock Libii. Mechanics of the slow draining of a large tank under gravity. Am. J. Phys. 71 (11) November 2003, pp. 1204-1207

Noll E. D. Confronting the bouyant force. The Physics Teacher, Vol 40, January 2002, pp. 8-10

Peiris M. G. C., Tenmakone K.. Rate of rise of a liquid in a capillary tube. Am. J. Phys. 48 (5) may 1980, pp. 415

Peiris M. G. C., Tennakone K. Simple method for determination of the viscosity of a liquid. Am. J. Phys. 48 (6) June 1980, pp- 497-498

Pellicer, Gracía-Morales, Hernández. On the demostration of Young-Laplace equation in introductory physics courses. Phys. Educ. 35(2) March 2000, pp. 126-129.

Pellicer J, Manzanares J. A., Mafé S. The physical description of elementary surface phenomena: Thermodynamics versus mechanics. Am. J. Phys. 63 (6) June 1995, pp. 542-547

Rämme G. Surface tension from deflating a soap bubble. Phys. Educ. 32 (3)   May 1997. pp 191-194.

Reed B. C. Archimedes' law sets a good energy-minimization example. Physics Education, 39 (4) July 2004, pp. 322-323.

Román F.L., Faro J., Velasco S. A simple experiment for measuring the surface tension of soap solutions. Am. J. Phys. 69 (8) August 2001 pp. 920-921.

Seobie J. Scott R. D., Steward J. F., Use of point of inflection on a radiactive decay curve. Am. J. Phys. 43 (11) November 1975, pp. 1012-1013

Silva A., Archimedes' law and the potential energy: modelling and simulation with a sreadsheet. Phys. Educ. 33 (2) March 1998. pp. 87-92.

Smithson J. R., Pinkston E. R., Half-life of a water column as a laboratory exercise in exponential decay. Am. J. Phys. 28 (1960) pp. 740-742

Sutton R. M. Some dynamic applications of liquid manometers. Am. J. Phys. 3 (1935), pp. 77-81

Synolakis C. On combining the Bernoulli and Poiseuille equetion- A plea to authors of college physics text. Am. J. Phys. 57 (11) November 1989, pp. 1013-1019

Tyler E. A graphical method of measuring surface tension and density. Am. J. Phys. 5 (1937) pp. 195-197

Vandyck M.A. On an alternative type of barometer. Am. J. Phys. 57 (5) May 1989, pp. 467-469

Velasco S., González A., Román F. L. Una medida de la presión atmosférica sin barómetro. Revista Española de Física. Vol. 18  nº4, págs. 47-51

Vermillon R. A look at some rising bubbles. Am. J. Phys. 43 (2) February 1975, pp. 177-179

Vermillion R.E. Derivation of Archimedes' principle. Am. J. Phys. 59 (8) August 1991, pp. 761-762

Walker J. The hydrostatic paradox: simple geometries, explicit calculations. The Physics Teacher, Vol. 36, September 1998, pp. 378-379.

Waltham C. Flight without Bernoulli. The Physics Teacher, Vol 36, November 1998, pp. 457-462

Watts R. G. La física del beisbol. Mundo Científico, V-8, nº 81, Junio 1988.

Weber R. L. Gas viscosities by capillary flow. Am. J. Phys. 7 (1939) pp. 163-164

Weitner K. A comparison of explanations of the aerodynamic lifting force. Am. J. Phys. 55 (1) January 1987, pp. 50-54

Wilson A. The hydrostatic paradox. The Physics Teacher, Vol. 33, November 1995, pp. 538-539.

Analytic Functions. The Magnus Effect, and Wings.