Resources
Journal papers
Courbin, L., G. Cristobal, M. Winckert, and P. Panizza (2005), "Design of a low cost Zimm-Crothers viscometer: from theory to experiment," Am. J. Phys. 73 (9), 851-5.
Cronin, D. J. (1965), "Temperature and pressure dependence of the viscosity of gases," AJP 33, 835-840.
Digilov, R. M. (2017), "Gravity discharge vessel revisited: an explicit Lambert W function solution," Am. J. Phys. 85 (7), 510 - 14.
Digilov, R. M. and M. Reiner (2005), "Weight-controlled capillary viscometer," Am. J. Phys. 73 (11), 1020-2.
Howard, S. M., S. N. D. (1965), "Viscometry in the physics laboratory," AJP 33, 165.
King, A. L. (1965), "Simple viscosimetric experiment," AJP 33, 848.
Nahshol, D. (1965), "Measuring viscosity by Stoke's law," AJP 33, 657-658.
Nienart, L. (1994), "Measuring the viscosity of gases," Am. J. Phys. 62 (6), 566-8.
Peiris, M. G. C. and K. Tennakone (1980), "Simple method for determining the viscosity of a liquid," AJP 48, 497-498.
Sandhu, H. S. (1965), "Apparatus for measuring the viscosity of water," AJP 33, 508.
Stanley, R. C. (1974), "Resource letter MPF-1: mechanical properties of fluids," AJP 42, 440-451.
Even, C., F. Bouquet, J. Remond, and B. Deloche (2009), "Measuring viscosity with a levitating magnet: application to complex fluids," Eur. J. Phys. (UK) 30 (1), 13 - 22.
Farrier, N., L. Humphrey, and T. J. Kelly (2019), "A visco-elastic physics exercise using inquiry," Eur. J. Phys. (UK) 40 (5), 055803 (12 pp.) .
Gama Goicochea, A., M. A. Balderas Altamirano, R. Lopez-Esparza, M. A. Waldo-Mendoza, and E. Perez (2015), "On the computational modeling of the viscosity of colloidal dispersions and its relation with basic molecular interactions," Eur. J. Phys. (UK) 36(5), 055032 (10 pp.) .
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 -.
Hou, Z., K. Yuan, F. Xie, H. Jin, and Q. Shi (2015), "Oscillation properties of a simple pendulum in a viscous liquid," Eur. J. Phys. (UK) 36, 015011 (8 pp.) Houari, A. (2012), "Determining the drag coefficient of rotational symmetric objects falling through liquids," Eur. J. Phys. (UK) 33, 947 - 54.Houari, A. (2013), "An Analytical Determination of the Viscosity of Liquids," Eur. J. Phys. (UK) 34, 207 - 11.
Massalha, T. and R. M. Digilov (2015), "Capillary viscometer with a pressure sensor: a subject for student projects," Eur. J. Phys. (UK) 36 (6), 065045 (9 pp.) .
Rohindra, D. R., R. A. Lata, and R. K. Coll (2012), "A simple experiment to determine the activation energy of the viscous flow of polymer solutions using a glass capillary viscometer," Eur. J. Phys. (UK) 33 (5), 1457 - 64.
Blasiak, W. (1986), "Planning a school physics experiment," Phys. Educ. 21, 317-319.