Resources
Journal papers
Bent, H. A. (1986), "Droplet in a hot metal spoon," Am. J. Phys. 54 (11), 967.
Becchetti, F. D., S. L. Mack, W. R. Robinson, and M. Ojaruega (2015), "Colliding nuclei to colliding galaxies: Illustrations using a simple colliding liquid-drop apparatus," Am. J. Phys. 83 (10), 846 - 56.
Behroozi, F., H. K. Macomber, J. A. Dostal, C. H. Behroozi, and B. K. Lambert (1996), "The profile of a dew drop," Am. J. Phys. 64 (9), 1120-1125.
Behroozi, F. (2012), "Determination of contact angle from the maximum height of enlarged drops on solid surfaces," Am. J. Phys. 80 (4), 284 - 8.
Behroozi, F. and P. S. Behroozi (2019), "Reliable determination of contact angle from the height and volume of sessile drops," Am. J. Phys. 87 (1), 28 - 32.
Benilov, E. S., C. P. Cummins, and W. T. Lee (2013), "Why do bubbles in Guinness sink?," Am. J. Phys. 81 (2), 88 - 91.
Bruce, I. (1984), "Concerning drops," AJP 52, 1102-1105.
Camp, P. R. (1976), "Simple lecture demonstration of atmospheric pressure, dissolved gases in liquid, and cavitation," Am. J. Phys. 44, 604-605.
Curzon, F. L. (1978), "The Leidenfrost phenomenon," Am. J. Phys. 46, 825-828.
de la Madrid, R., T. Whitehead, and G. M. Irwin (2015), "Comparison of the lateral retention forces on sessile and pendant water drops on a solid surface," Am. J. Phys. 83 (6), 531 - 8.
Denardo, B., L. Pringle, C. DeGrace, and M. McGuire (2001), "When do bubbles cause a floating body to sink?," Am. J. Phys. 69 (10), 1064-72.
Dias, C. J. and L. N. Goncalves (2014), "The concept of negative mass and its application to Helium-balloon-type dynamics," Am. J. Phys. 82 (10), 997 - 1000.
Lee, W. T., S. Kaar, and S. B. G. O'Brien (2018), "Sinking bubbles in stout beers," Am. J. Phys. 86 (4), 250 - 6.
dos Santos, R. M. Z. and Y. E. Nagai (1979), "Water drop experiment for introductory laboratory," AJP 47, 292.
Eaton, B. G. (1974), "An improved apparatus for producing streams of water drops," AJP 42, 706-707.
Godwin, R. P. and E. J. Chapyak (2000), "Resource Letter BD-1: Bubble dynamics," Am. J. Phys. 68 (3), 211-22.
Gunn, R. (1965), "The synchrodropper - a versatile tool," AJP 33, 824-827.
Hahn, B. and Committee on Apparatus of the AAPT, Eds. (1965), "Apparatus notes: demonstration apparatus for the development of negative pressure in a liquid and for the fracture of the liquid by neutron irradiation," AJP 33, No. 7 - v - vi.
Kokhanovsky, A. A. (2004), "Single light scattering: bubbles versus droplets," Am. J. Phys. 72 (2), 258-63.
Leroy, V., M. Devaud, and J. -C. Bacri (2002), "The air bubble: experiments on an unusual harmonic oscillator," Am. J. Phys. 70 (10), 1012-19.
May, D. A. and J. J. Monaghan (2003), "Can a single bubble sink a ship?," Am. J. Phys. 71 (9), 842-9.
Nagai, Y. E. (1980), "Reply to "Comment on 'Water drop experiment for introductory laboratory'"," AJP 48, 879-880.
Owe Berg, T. G. (1969), "Apparatus for suspension of charged particles and droplets," AJP 37, 859-860.
Owe berg, T. G. and T. A. Gaukler (1969), "Apparatus for the study of charged particles and droplets," AJP 37, 1013-1018.
Peterson, W. D. (1980), "Falling bubbles demonstrate acceleration of gravity," AJP 48, 888-889.
Powell, R. L. and R. T. Foister (1980), "Comment on "Water drop experiment for introductory laboratory" [R. M. Z. dos Santos and Y. E. Nagai, Am. J. Phys. 47, 292 (1979)]," AJP 48, 879.
Seeley, F. B., A. Bandas, M. Fowler, and R. Gibson (1999), "An inexpensive light-emitting diode strobe system for measuring the radius of a single sonoluminescing bubble," Am. J. Phys. 67 (2), 162-4.
Bongiovanni, C., A. Dominguez, and J. -P. Chevaillier (2000), "Understanding images of bubbles," Eur. J. Phys. 21 (6), 561-70.
Bochkov, M., D. Gusenkova, E. Glushkov, J. Zotova, and S. N. Zhabin (2016), "Resistive method for measuring the disintegration speed of Prince Rupert's drops," Eur. J. Phys. (UK) 37 (5), 055707 (11 pp.) .
Bro, J. A., K. S. B. Jensen, A. N. Larsen, J. M. Yeomans, and T. Hecksher (2017), "The macroscopic pancake bounce," Eur. J. Phys. (UK) 38 (1), 015006 (10 pp.) .
Carla, M. and A. Orlando (2018), "Implementation of an axisymmetric drop shape apparatus using a Raspberry-Pi single-board computer and a web camera," Eur. J. Phys. (UK) 39 (4), 045008 (17 pp.) .
Devaud, M., T. Hocquet, J. -C. Bacri, and V. Leroy (2008), "The Minnaert bubble: an acoustic approach," Eur. J. Phys. (UK) 29 (6), 1263 - 85.
Drenckhan, W., D. Weaire, and S. J. Cox (2004), "The demonstration of conformal maps with two-dimensional foams," Eur. J. Phys. 25(3), 429-38.
Eid, K. F., M. Panth, and A. D. Sommers (2018), "The physics of water droplets on surfaces: exploring the effects of roughness and surface chemistry," Eur. J. Phys. (UK) 39 (2), 025804 (21 pp.) .
Fragkopoulos, A. A., P. W. Ellis, and A. Fernandez-Nieves (2015), "Teaching Rayleigh-Plateau instabilities in the laboratory," Eur. J. Phys. (UK) 36 (5), 055023 (10 pp.).
Leighton, T. G. and A. J. Walton (1987), "An experimental study of the sound emitted from gas bubbles in a liquid," EJP 8, 98-104.
Leighton, T. G., K. J. Fagan, and J. E. Field (1991), "Acoustic and photographic studies of injected bubbles," EJP 12, 77-85.
Leighton, T. G., M. Wilkinson, A. J. Walton, and J. E. Field (1990), "Studies of non-linear bubble oscillations in a simulated acoustic field," EJP 11, 352-358.
Leighton, T. G., P. R. White, and M. A. Marsden (1995), "The one-dimensional bubble: an unusual oscillator, with applications to human bioeffects of underwater sound," Eur. J. Phys. 16 (6), 275-81.
Leike, A. (2002), "Demonstration of the exponential decay law using beer froth," Eur. J. Phys. 23 (1), 21-6.
Mills, A. A. and N. F. Sharrock (1986), "Rate of evaporation of n-alcohols from a hot surface: Nukiyama and Leidenfrost temperatures," Eur. J. Phys. 7, 52-54.
Mills, A. A. and J. D. Fry (1982), "Rate of evaporation of hydrocarbons from a hot surface: Nukiyama and Leidenfrost temperatures," Eur. J. Phys. 3, 152-154.
Pumphrey, H. C. and A. J. Walton (1988), "Experimental study of the sound emitted by water drops impacting on a water surface," EJP 9, 225-231.
Straulino, S., C. M. C. Gambi, and G. Molesini (2015), "Optical behavior of surface bubbles," Eur. J. Phys. (UK) 36 (6), 065038 (9 pp.) .
Suhr, W. (2012), "Gaining insight into antibubbles via frustrated total internal reflection," Eur. J. Phys. (UK) 33 (2), 443 - 54.
Vignoli, L. L., A. L. F. de Barros, R. C. A. Thome, A. L. M. A. Nogueira, R. C. Paschoal, and H. Rodrigues (2013), "Modeling the Dynamics of Single-bubble Sonoluminescence," Eur. J. Phys. (UK) 34 (3), 679 - 88.
Wang, X. and R. Zhu (2010), "A method to calculate the surface tension of a cylindrical droplet," Eur. J. Phys. (UK) 31 (1), 79 - 87.
Zhao, W., S. Wang, L. Li, Y. Ren, C. Hou, J. Li, and Y. Zhang (2019), "Understanding the generation and evolution of `water stars'," Eur. J. Phys. (UK) 40 (1), 015804 (13 pp.) .
Hinderholtz, G. F. (1978), "Buoyant bubble [demonstration]," Phys. Teach. 16 (7), 490.