Resources
Brownian motion (lab manual – Univ. Florida)
Journal papers
Alexandrakis, G. C. (1978), "Determination of molecular size and Avogadro's number: a student experiment," Am. J. Phys. 46, 810-812.
Anger, C. D. and J. R. Prescott (1970), "A Monte Carlo simulation of Brownian motion in the freshman laboraotry," AJP 38, 716-719.
Barnes, G. (1973), "A Brownian motion demonstration using television," AJP 41, 278-280.
Clark, N. A. and J. H. Lunacek (1969), "A study of Brownian motion using light scattering," AJP 37, 853-854.
Clark, N. A., J. H. Lunacek, and G. B. Benedek (1970), "A study of Brownian motion using light scattering," AJP 38, 575-585.
Darras, A., J. Fiscina, N. Vandewalle, and G. Lumay (2017), "Relating Brownian motion to diffusion with superparamagnetic colloids," Am. J. Phys. 85 (4), 265 - 70.
Earl, J. A. (1965), "Apparatus notes: Brownian motion determination of Avogadro's number," AJP 33, No. 3 - xxi-xxii.
Germain, D., M. Leocmach, and T. Gibaud (2016), "Differential dynamic microscopy to characterize Brownian motion and bacteria motility," Am. J. Phys. 84 (3), 202 - 10.
Gillespie, D. T. (1996), "The mathematics of Brownian motion and Johnson noise," Am. J. Phys. 64 (3), 225-40.
Goldburg, W. I. (1999), "Dynamic light scattering," Am. J. Phys. 67 (12), 1152-60.
Harris, S. (1976), "Diffusion coefficient for a Brownian particle," AJP 44, 291-292.
Horne, M., P. Farago, and J. Oliver (1973), "An experiment to measure Boltzmann's constant," Am. J. Phys. 41, 344-348.
Krishnatreya, B. J., A. Colen-Landy, P. Hasebe, B. A. Bell, J. R. Jones, A. Sunda-Meya, and D. G. Grier (2014), "Measuring Boltzmann's constant through holographic video microscopy of a single colloidal sphere," Am. J. Phys. 82 (1), 23 - 31.
Kruglak, H. (1987), "Brownian movement: an improved TV demonstration," AJP 55, 955-956.
Kruglak, H. (1989), "Boltzmann's constant: a laboratory experiment," Am. J. Phys. 57 (3), 216-7.
Madsen, M. J. and A. D. Skowronski (2014), "Brownian motion of a trapped microsphere ion," Am. J. Phys. 82 (10), 934 - 40.
Maslokovets, N. D. (1972), "Two new apparatuses for lecture demonstration [Brownian motion simulator and linear accelerator for charged sand]," AJP 40, 761-762.
Nakroshis, P., M. Amoroso, J. Legere, and C. Smith (2003), "Measuring Boltzmann's constant using video microscopy of Brownian motion," Am. J. Phys. 71 (6), 568-73.
Schumacher, R. T. (1986), "Brownian motion by light scattering revisited," AJP 54, 137-41.
Stoller, R. (1976), "Viewing Brownian motion with laser light," AJP 44, 188.
Unruh, H., Jr. (1980), "Experimental study of Brownian motion in the limit of small time intervals by means of an ideal gas simulator," AJP 48, 818-820.
Unruh, H., Jr., P. M. Maxton, and J. Schwartz (1979), "Experimental study of the Brownian motion of a harmonically bound particle," AJP 47, 827-828.
Volpe, G., S. Gigan, and G. Volpe (2014), "Simulation of the active Brownian motion of a microswimmer," Am. J. Phys. 82 (7), 659 - 64.
Volpe, G. and G. Volpe (2013), "Simulation of a Brownian particle in an optical trap," Am. J. Phys. 81 (3), 224 - 30.
Bacon, M. E., W. J. Johnson, and M. A. Day (1986), "Experiments in differential light scattering of fluids," EJP 7, 259-265.
Greczylo, T. and E. Dbowska (2005), "Finding viscosity of liquids from Brownian motion at students' laboratory," Eur. J. Phys. 26 (5), 827-33.
Katayama, Y. and R. Terauti (1996), "Brownian motion of a single particle under shear flow," Eur. J. Phys. 17 (3), 136-40.
Salmon, R., C. Robbins, and K. Forinash (2002), "Brownian motion using video capture," Eur. J. Phys. 23 (3), 249-53.
Greczyto, T. and E. Debowska (2007), "Comment on `Finding viscosity of liquids from Brownian motion at students' laboratory' and `Brownian motion using video capture'," Eur. J. Phys. (UK) 28 (5), L39 - L41 -.
Mazur, Z. and D. Green (2008), "Numerical simulation of the Perrin-like experiments," Eur. J. Phys. (UK) 29 (1), 91 - 101.
Salmon, R., C. Robbins, and K. Forinash (2007), "Reply to comment on `Finding viscosity of liquids from Brownian motion at students' laboratory' and `Brownian motion using video capture'," Eur. J. Phys. (UK) 28 (5), L43 .
Kruglak, H. (1988), "Taking a random walk on TV," Phys. Teach. 26 (3), 157-60.
Kruglak, H. (1988), "Brownian motion - a laboratory experiment," PE 23, 306-309.
Webb, J. l. P. (1980), "Einstein and Brownian motion - student project," PE 15.