Bibliografía. Dinámica

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Fuerza de rozamiento
Dinámica del 
movimiento circular
Trabajo y energía
Sistema de partículas
Movimiento en el 
seno de un fluido
Sistemas de masa

marca.gif (847 bytes)Bibliografía

Adawi I. Comments on the raindrop problem. Am. J. Phys. 54 (8) August 1986, pp. 739-740

Aguiar C. E., Laudares F. Listening to the coefficient of restitution and the gravitational acceleration of a bouncing ball. Am. J. Phys. 71 (5) May 2003. pp. 499-501.

Alben R. An exactly solvable model exhibiting a Landau phase transition. Am. J. Phys. 40, January 1972, pp. 3-8

Alonso M. On the notion of internal energy. Phys. Educ. 32 (4) July 1997, pp. 256-264

Anderson A. The cocktail (highball) problem. Phys. Educ 34 (2) March 1999, pp. 76-79

Arons. Development of energy concepts in introductory physics courses. Am. J. Phys. 67(12) December 1999

Aurora T. S. Sliding motion along a curved path: calculus-based solution. Phys. Educ. 29 (2) march 1994, 105-106.

Ayars E., Buchholtz L. Analysis of the vacuum cannon. Am. J. Phys. 72 (7) July 2004, pp. 961-963.

Bacon R. H., The collision of two particles. Am. J. Phys. 8 (1940) pp.154-161

Bagchi, Holody. Study of projectile motion by angular momentum and torque. The Physics Teacher. September 1991. pp 376-377.

Bailey R. Experiments on free fall and rebound. The Physics Teacher, February 1990, pp. 100-101

Bauer D.. Dry friction: from impending motion to motion. Phys. Educ. 29 (1994) pp. 239-241

Berg R. E. Rotating liquid mirror. Am. J. Phys. 58 (3) March 1990, pp. 280-281

Biezeveld H. The bungee jumper: A comparison of predicted and measured values. The Physics Teacher Vol 41, April 2003, pp. 238-241.

Bolina O, Rodrigo Parreira. A problem of relative, costrained motion. The Physics Teacher, Vol 36, September 1998, pp. 334-335

Bernstein A. D. Listening to the coefficient of restitution. Am. J. Phys. 45 (1) January 1977, pp. 41-44

Bose S. K.. The rocket problem revisited. Am. J. Phys. 51 (5) 1983, pp. 463-464.

Boyd J. N. Raychowdhury P. N. The trajectory of the centre of mass for a sliding rope. Eur. J. Phys. 17, (1996), pp. 60-62

Brancazio P. J. Looking into Chapman's homer: The physics of judging a fly ball. Am. J. Phys. 53 (9) September 1985, pp. 849-855

Calkin M. G. Motion of a falling spring. Am. J. Phys. 61 (3) March 1993. pp. 261-264

Calkin M. G., March R. H. The dynamics of a falling chain: I. Am. J. Phys. 57 (2) February 1989, pp. 154-157

Calkin M. G., The dynamics of a falling chain: II. Am. J. Phys. 57 (2) February 1989, pp. 157-159

Casadellá Rig, Bibiloni Matos. La construcción histórica del concepto de fuerza centrípeta en relación con las dificultades de aprendizaje. Enseñanza de las Ciencias, V-3, nº 3, 1985, págs. 217-224.

Casadellá J, Miró C. La enseñanza de los conceptos de fuerza centrípeta y fuerza centrífuga. Una propuesta inspirada en la historia de la mecánica. Enseñanza de las Ciencias 15 (3) 1997, págs. 393-399

Casanova R, Mendialdua J. The importance of non-inertial reference systems in some problems of traslational dynamics. Phys. Educ. 32 86) November 1977, 399-404

Chun Wa Wong, Kosuke Yasui. Falling chains. Am. J. Phys. 74 (6) June 2006, pp. 490-496

Cokman J. Improved vacuum bazooka. The Physics Teacher, 41, April 2003, pp. 246-247.

Concari, Pozzo, Giorgi. Estudio sobre el rozamiento en libros de Física de nivel universitario. Enseñanza de las Ciencias 17(2) 1999, págs. 273-280.

Cross R. Role of the centrifugal force in vehicle roll. Am. J. Phys. 67 (5) May 1999, pp. 447-448.

Czudková L., Musilová J. Physics in a lift and on a turntable. Phys. Educ. 35 (1) January 2000. pp 22-28.

Davis A. Error in the vibrating chain problem. Am. J. Phys. 20 (2) February 1952, pp. 112-114

De Luca R. Elastic collisions of classical point particles on a finite frictionless linear track with perfectly reflecting endpoints. Eur. J. Phys. 27 (2006) pp. 437-449

Denny M. Stick-slip motion: an important example of self-excited oscillation. Eur. J. Phys. 25, (2004), pp. 311-322.

Donnelly D, Diamond J. Slow collisions in the ballistic pendulum: A computational study. Am. J. Phys. 71 (6) June 2003, pp. 535-540.

Díaz-Jiménez, A., Mathieu Valderrama R.. Redistribuyendo la masa con la velocidad: El cohete clásico. Revista Española de Física. Volumen 4, nº 3, 1990. págs. 65-67.

Dobrovolskis. Rubber band pendulum. Am. J. Phys. 41, September 1973, pp. 1103-1106.

Drugowich J. R., Hipólito O. Spontaneous symmetry breaking in a simple mechanical model. Am. J. Phys. 53 (7) July 1985, pp. 690-693

Dufresne R., Gerace W., Leonard W. Springbok: The Physics of jumping. The Physics Teacher Vol 39, February 2001, pp. 109-115

Dupré A., Janssen P. An accurate determination of the acceleration of gravity g in the undergarduate laboratory. Am. J. Phys. 68 (8) August 2000, pp. 704-711.

Eagleson H. V., An experimental method for determining coeffcients of sliding friction. Am. J. Phys. 13 (1945), pp. 43-44

Edwards B. F., Wilder J. W., Scime E. E., Dynamics of falling raindrop. Eur. J. Phys. (2001) pp. 113-118

Erlichson H. Maximum projectile range with drag and lift, with particular application to golf. Am. J. Phys. 51 (4) April 1983, pp. 357-362.

Fakhruddin H. Maximizing imparted speed in elastic collisions. The Physics Teacher, Vol 41, September 2003, pp. 338-339

Fisher N. Space science 2001: some problems with artificial gravity. Physics Education 36 (3) May 2001, pp.193-201

Flores J., Solovey G., Gil S., Flow of sand and a variable mass Atwood machine. Am. J. Phys. 71 (7) July 2003, pp. 715-720.

Franklin L. P., Kimmel P. I.. Dynamics of circular motion with friction. Am. J. Phys. 48 (3) March 1980, pp. 207-210

García A. Rozamiento en Física General. Revista Española de Física, V-6, nº 3, 1992, págs. 44-48.

García Celma J.J., Cros A. ¿Newton o Stokes?. Decídelo tú mismo. Revista Española de Física 18 (1), 2004, pp. 36-39

Gil Graham, Örjan Nilsson. Motion in a vertical circle. Phys. Educ. (32) 1997, pp. 313-321.

Glaister. Oscillations of a falling spring. Phys. Educ. V-28 (5) 1993, pp. 329-331

Gómez-Aiza S., Gómer R W, Marquina V., A simplified approach to the brachistochrone problem. Eur. J. Phys. 27 (2006), pp. 1091-1096

Gorielay A., Boulanger P, Leroy J., Toy models: The jumping pendulum. Am. J. Phys. 74 (9) September 2006, pp. 784-788

Gowdy, R.H. The physics of perfect rockets. Am. J. Phys. 63 (3) March 1995, pp. 229-232.

Graham M. Analysis of slinky levitation. The Physics Teacher, V-39, February 2001. pp. 90-91

Guercio G, Zanetti V. Determination of gravitational acceleration using a rubber ball. Am. J. Phys. 55 (1) January 1987, pp. 59-63

Hart F. X., Little III, C. A., Student investigation of models for the drag force. Am. J. Phys. 44 (9) September 1976, pp. 872-878

Heywood W. A., Hurwitz H., Ryan D. Z., Whip effect in a falling chain. Am. J. Phys. 23 (1955), pp. 279-280

Herman F, Seitz M., How the ball-chain work?. Am. J. Phys. 50 (11) November 1982, pp. 977-981

Herman F., Schmázle P., Simple explanation of a well-known collision experiment. Am. J. Phys. 49 (8) August 1981, pp. 761-764

Hite G. E. The sled race. Am. J. Phys. 72 (8) August 2004, pp. 1055-1058

Hutzier S. Delaney G., Weaire D., MacLeod F., Rocking Newton's cradle. Am. J. Phys. 72 (12) December 2004, pp. 1508-1516.

Klostergaard H. Determination of gravitational acceleration g using a uniform circular motion. Am. J. Phys. 44 (1) January 1976, pp. 68-69

Krane K. S., The falling raindrop: Variations on a theme of Newton. Am. J. Phys. 49 (2) February 1981, pp. 113-117

Krim J. Rozamiento a escala atómica. Investigación y Ciencia, Diciembre 1996, págs. 46-53.

Krim J. Resource Letter: FMMLS-1: Friction at macroscopic and microscopic length scales. Am. J. Phys. 70 (9) September 2002, pp. 890-897.

Lapidus I. R., Motion of a pulsed rocket. Am. J. Phys. 38 (1970) pp. 1361-1362

Lapidus I. R. Circular motion with sliding friction. Am. J. Phys. 49 (9) September 1981, pp. 883-884

Lapidus I R. Motion of a harmonic oscillator with variable sliding friction. Am. J. Phys. 52 (11) November 1984, pp. 1015-1016

Lapidus I. R. Problem: the rain in the plain falls mainly on the train. Am. J. Phys. 53 (7) July 1985, Enunciado pág 644, solución pág 697.

Lapidus, R. Problem: Torricelli's rocket. Am. J. Phys. 54 (3) March 1986, (enunciado en la pág. 238, solución en la pág. 277)

Lindgren E- R- Comments on "Using the Atwood machine to study Stokes' law" (Am. J. Phys. 54, 904 (1986)). Am. J. Phys. 56 (10) October 1988, pp. 940.

Loveland K. T. Simple equations for linear partially elastic collisions. The Physics Teacher, 38, September 2000, pp.  380-381.

Mancuso R. V., Schreiber G. A., An improved apparatus for demostrating first- and second-order phase transitions: Ball bearings on a rotating hoop. Am. J. Phys. /3(4) Paril 2005, pp. 366-367.

Martin, Martin. The physics of bungee jumping. Physics Education, 29 (4) July 1994, pp. 247-248.

McCall R. P. Variations on the frictionless inclined plane problem. The Physics Teacher, 42, April 2004, pp. 212-214.

McDermott L. C., Shaffer P., Somers M. D. Research as a guide for teaching introductory mechanics: An illustration in the context of the Atwood machine. Am. J. Phys. 62(1) January 1994, pp 46-55

McDonald K. T. Motion of a leaky tank car. Am. J. Phys. 59 (9) September 1991, pp. 813-816

Metzger E. An unusual case of Simple Harmonic Motion. Am. J. Phys. 40, August 1972, pp. 1167-1168

Miller F. Kepler's third law and the mass of the Moon. Am. J. Phys. 34 (1966) , pp. 53-57

Millet L. E. The one-dimensional elastic-collision equation: vf=2vc-vi. The Physics Teacher, 36, March 1998, pp 186

Mohazzabi P. High-altitude free fall. Am. J. Phys. 64 (10) October 1996, pp. 1242-1246

Molina M. I., Body motion in a one-dimensional resistive medium. Am. J. Phys. 66 (11) November 1998, pp. 973-974

Molina M. I., Body motion in a one-dimensional resistive medium: an exactly solvable model. Revista Mexicana de Física 47 (2) Abril 2001, pp. 201-204.

Mungan C. Sliding on the surface of a rough sphere. The Physics Teacher, Vol 41, September 2003, pp. 326-328

Mungan C. E., Energy-based solution for the speed of a ball moving vertically with drag. Eur. J. Phys. 27 (2006), pp. 1141-1146

Oliva J. M., Ponts A. Fuerza de inercia y enseñanza de la Física. Revista Española de Física, V-10, nº 3, 1996, págs. 38-43.

Orgolec Z. On the shape of a rotating liquid surface. Eur, J, Phys. 16 (1995)  pp. 256-259

Owen J. P., Ryu W. S., The effects of linear and quadratic drag on falling spheres: an undergarduate laboratory. Eur. J. Phys. 26 (2005) pp. 1085-1091

Parker G. W. Projectile motion with air resistance quadratic in speed. Am . J. Phys. 45 (7) July 1977, pp. 606-610

Partensky M, Partensky P.D. Can a spring beat the charge?. The Physics Teacher, 42 November 2004, pp. 472-476

Partensky P. D., Partensky M. B..Hanging by a thread. The Physics Teacher, 44 February 2006, pp. 88-91

Paetkau M., Tossing on a rotating space station. The Physics Teacher, 42, October 2004, pp. 423-426

Parker G. W., Projectile motion with air resistance quadratic in speed. Am. J. Phys. 45 (7) July 1977, pp. 606-610

Penny D. Rollover of sport utility vehicles. The Physics Teacher, vol 42, February 2004, pp. 86-91

Prato D., Gleiser R., Another look at the uniform rope sliding over the edge of a smoooth table. Am. J. Phys. 50 (6) June 1982, pp. 536-539

Redmount I. The weight of time. The Physics Teacher, Vol 36, October 1998, pp. 432-434

Reidl C. The coefficient of kinetic friction. The Physics Teacher. September 1990, pp. 402

Ringlein J., Robbins M. O. Understanding and illustrating the atomic origins of friction. Am. J. Phys. 72 (7) July 2004, pp. 884-891

Saelman B. Note on the equation of motion of a rocket. Am. J. Phys. 24 (1) January 1956, pp. 43

Sanmartín J. R., Vallejo, M. V., Widespread error in a standard problem in the dynamics of deformable bodies. Am. J. Phys. 46 (9) September 1978, pp. 949-950.

Santos-Benito J. V., Gras-Martí A., Ubiquitous drawing errors for the simple pendulum. The Physics Teacher, Vol 43, October 2005, pp. 466-468.

Satterly J. Some experiments in Dynamics, Chiefly on vibrations. Am. J. Phys. 18 (7) October 1950, pp. 405-416

Sawiki M. Tautochrone as a Harmonic Oscillator. The Physics Teacher, 43, April 2005, pp. 236-238

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Sivardière J., Mechanical model for a first-order phase transition. Am. J. Phys. 53 (4) April 1985, pp. 363-365

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