Monsoriu, J. A., Giménez, M. H., Riera, J., & Vidaurre, A. (2005). Measuring coupled oscillations using an automated video analysis technique based on image recognition. European Journal of Physics, 26(6), 1149-1155. doi:10.1088/0143-0807/26/6/023
Shamim, S., Zia, W., & Anwar, M. S. (2010). Investigating viscous damping using a webcam. American Journal of Physics, 78(4), 433-436. doi:10.1119/1.3298370
Ochoa, O. R., & Kolp, N. F. (1997). The computer mouse as a data acquisition interface: Application to harmonic oscillators. American Journal of Physics, 65(11), 1115-1118. doi:10.1119/1.18732
[+]
Monsoriu, J. A., Giménez, M. H., Riera, J., & Vidaurre, A. (2005). Measuring coupled oscillations using an automated video analysis technique based on image recognition. European Journal of Physics, 26(6), 1149-1155. doi:10.1088/0143-0807/26/6/023
Shamim, S., Zia, W., & Anwar, M. S. (2010). Investigating viscous damping using a webcam. American Journal of Physics, 78(4), 433-436. doi:10.1119/1.3298370
Ochoa, O. R., & Kolp, N. F. (1997). The computer mouse as a data acquisition interface: Application to harmonic oscillators. American Journal of Physics, 65(11), 1115-1118. doi:10.1119/1.18732
Ng, T. W., & Ang, K. T. (2005). The optical mouse for harmonic oscillator experimentation. American Journal of Physics, 73(8), 793-795. doi:10.1119/1.1862634
Tomarken, S. L., Simons, D. R., Helms, R. W., Johns, W. E., Schriver, K. E., & Webster, M. S. (2012). Motion tracking in undergraduate physics laboratories with the Wii remote. American Journal of Physics, 80(4), 351-354. doi:10.1119/1.3681904
Vannoni, M., & Straulino, S. (2007). Low-cost accelerometers for physics experiments. European Journal of Physics, 28(5), 781-787. doi:10.1088/0143-0807/28/5/001
Greczylo, T., & Debowska, E. (2002). Using a digital video camera to examine coupled oscillations. European Journal of Physics, 23(4), 441-447. doi:10.1088/0143-0807/23/4/308
Chung, H.-C., Liang, J., Kushiyama, S., & Shinozuka, M. (2004). Digital image processing for non-linear system identification. International Journal of Non-Linear Mechanics, 39(5), 691-707. doi:10.1016/s0020-7462(03)00021-0
Vogt, P., & Kuhn, J. (2012). Analyzing simple pendulum phenomena with a smartphone acceleration sensor. The Physics Teacher, 50(7), 439-440. doi:10.1119/1.4752056
Kuhn, J., & Vogt, P. (2012). Analyzing spring pendulum phenomena with a smart-phone acceleration sensor. The Physics Teacher, 50(8), 504-505. doi:10.1119/1.4758162
Carlos Castro-Palacio, J., Velázquez-Abad, L., Giménez, M. H., & Monsoriu, J. A. (2013). Using a mobile phone acceleration sensor in physics experiments on free and damped harmonic oscillations. American Journal of Physics, 81(6), 472-475. doi:10.1119/1.4793438
Castro-Palacio, J. C., Velázquez-Abad, L., Giménez, F., & Monsoriu, J. A. (2013). A quantitative analysis of coupled oscillations using mobile accelerometer sensors. European Journal of Physics, 34(3), 737-744. doi:10.1088/0143-0807/34/3/737
Doll, R., & Ingold, G.-L. (2007). Lissajous curves and semiclassical theory: The two-dimensional harmonic oscillator. American Journal of Physics, 75(3), 208-215. doi:10.1119/1.2402157
Quereda, J., Ramón, M., Silva, B., Hinarejos, J. J., Rodrigo, J. G., & Farías, D. (2011). Calibrating the frequency of tuning forks by means of Lissajous figures. American Journal of Physics, 79(5), 517-520. doi:10.1119/1.3546095
Bobillo-Ares, N. C., & Fernandez-Nunez, J. (1995). Two-dimensional harmonic oscillator on an air table. European Journal of Physics, 16(5), 223-227. doi:10.1088/0143-0807/16/5/006
[-]