Resources
Journal papers
Berg, R. E. (1991), "Pendulum waves: a demonstration of wave motion using pendula," AJP 59, 186-187.
Cross, R. C. (1985), "Demonstration of wave propagation in a periodic structure," AJP 53, 563-567.
Dean, C. (1973), "Simple demonstration of the concept of group velocity," AJP 41, 1283-1284.
Hagelberg, M. P. (1978), "Phase and group velocity demonstration," AJP 46, 579-581.
Herreman, W. and H. Notebart (1983), "Circularly polarized waves: a mechanical demonstration," AJP 51, 91.
Kasper, J. E. and A. F. Benedek (1974), "A versatile wave phenomena device for use in demonstrations and in the laboratory," AJP 42, 754-759.
Mawdslwy, J. (1969), "Demonstrating phase velocity and group velocity," AJP 37, 842-843.
Morse, P. (1985), "Waves and targets: generalizations and specifics," AJP 53, 25-42.
Russell, G. A., R. R. Mankowski, and D. F. Fournier (1976), "Analog computer demonstration of traveling and standing waves," AJP 44, 284-288.
Vegors, S. H., Jr. (1975), "Beats and interference: a classroom demonstration," AJP 43, 1103-1105.
Wuchinich, D. (1969), "A simply constructed model for demonstrating wave propagation," AJP 37, 104-105.
Freschi, A. A., R. Hessel, M. Yoshida, and D. L. Chinaglia (2014), "Compression waves and kinetic energy losses in collisions between balls and rods of different lengths," Am. J. Phys. 82 (4), 280 - 6.
Liang, C., W. Ke, M. Fu, C. Wang, and X. Chen (2015), "An undergraduate experiment of wave motion using a coupled-pendulum chain," Am. J. Phys. 83 (5), 389 - 94.
Likar, A. and N. Razpet (2013), "Towards the Kelvin wake and beyond," Am. J. Phys. 81 (4), 245 - 52.
Bhathal, R., M. D. Sharma, and A. Mendez (2010), "Educational analysis of a first year engineering physics experiment on standing waves: based on the ACELL approach," Eur. J. Phys. (UK) 31 (1), 23 - 35.
Dolinko, A. E. (2009), "From Newton's second law to Huygens's principle: visualizing waves in a large array of masses joined by springs," Eur. J. Phys. (UK) 30 (6), 1217 - 28.
Fazio, C., I. Guastella, R. M. Sperandeo-Mineo, and G. Tarantino (2007), "Reply to comment on `Measuring longitudinal wave speed in solids: two methods and a half'," Eur. J. Phys. (UK) 28 (1), 3 - 5.
Fazio, C., I. Guastella, and G. Tarantino (2007), "The elastic body model: a pedagogical approach integrating real time measurements and modelling activities," Eur. J. Phys. (UK) 28 (5), 991 - 1005.
Hitchman, S., K. van Wijk, N. Broderick, and L. Adam (2015), "Heterodyne interferometry for the detection of elastic waves: a tutorial and open-hardware project," Eur. J. Phys. (UK) 36, 035011 (13 pp.) .
Levenson, . M. C. (1974), "Wave motion demonstrator," Phys. Teach. 12 (1), 47.
Roddy, C. J. (1983), "Standing waves-a new twist," Phys. Teach. 21 (6), 408-9.
Wood, H. T. (1992), "Mechanical analogue of the Doppler effect," Phys. Teach. 30, 340-341.
Saitoh, A. (1984), "New longitudinal waves demonstrator," Phys. Educ. 19, 28-30.
Williams, G. (2020), "The Wave Changer-from longitudinal to transverse," Phys. Educ. 55 (3), 033012 (4 pp.) .