Resources
Journal papers
Griffing, B. F. P., J. R. (1970), "Apparatus for demonstrating the independence of components of motion for a projectile," Am. J. Phys. 38, 1160-1161.
Hooper, W. (1979), "Comment on "Maximizing the range of a shot put" [D. B. Lichtenberg and J. G. Wills, Am. J. Phys. 46, 547 (1978)]," Am. J. Phys. 47, 748-749.
Kirwan, D. F. and J. Willis (1974), "Notes on a projectile motion experiment," Am. J. Phys. 42, 775-776.
Carrillo-Bernal, M. A., P. E. Mancera-Pina, H. H. Cerecedo-Nunez, P. Padilla-Sosa, H. N. Nunez-Yepez, and A. L. Salas-Brito (2014), "The ellipse in parabolic motion: an undergraduate experiment," Am. J. Phys. 82 (4), 354 - 6.
Hsu, H. and M. Horanyi (2012), "Ballistic motion of dust particles in the Lunar Roving Vehicle dust trails," Am. J. Phys. 80, 452 - 6.
Arabasi, S. (2016), "Projectile motion of a once rotating object: physical quantities at the point of return," Eur. J. Phys. (UK) 37 (5), 055006 (8 pp.) .
Bernardo, R. C., J. Perico Esguerra, J. D. Vallejos, and J. J. Canda (2015), "Wind-influenced projectile motion," Eur. J. Phys. (UK) 36(2), 025016 (9 pp.) .
Edwards, B. F., D. D. Sam, M. A. Christiansen, W. A. Booth, and L. O. Jessup (2014), "Angry Birds realized: water balloon launcher for teaching projectile motion with drag," Eur. J. Phys. (UK) 35 (3), 035009 (17 pp.) .
Hernandez-Saldana, H. (2010), "On the locus formed by the maximum heights of projectile motion with air resistance," Eur. J. Phys. (UK) 31, 1319 - 29.Hernandez-Saldana, H. (2017), "Locus of the apices of projectile trajectories under constant drag," Eur. J. Phys. (UK) 38, 065006 (10 pp.) .Hinaje, M. and D. Netter (2006), "Influence of the projectiles' material in a coilgun," Eur. J. Phys. (UK) 27, 1097 - 109.Perico Esguerra, J., R. C. Bernardo, J. Day Vallejos, and J. Jerard Canda (2015), "Reply to Comment on `Wind-influenced projectile motion'," Eur. J. Phys. (UK) 36 (6), 068004 (2 pp.) .
Shah, A., Y. Chauhan, P. Patel, and B. Chaudhury (2018), "Multivariate-data-visualization-based investigation of projectiles in sports," Eur. J. Phys. (UK) 39 (4), 044001 (20 pp.) .
Stewart, S. M. (2012), "On the trajectories of projectiles depicted in early ballistic woodcuts," Eur. J. Phys. (UK) 33 (1), 149 - 66.
Baiera, J. C. (1978), "Analysis of a projectile [teaching demonstration]," Phys. Teach. 16 (1), 33-4.
Barnes, G. (1974), "Projectile gun for an air-track glider," Phys. Teach. 12 (3), 177.
Dowling, J., Jr. and G. H. Mullen (1974), "Rubber band lab," Phys. Teach. 12 (4), 231-3.
Matthews, L. D. (1976), "Modifying the ballistic pendulum apparatus," Phys. Teach. 14 (4), 245-6.
Minnix, R. B. and D. R. Carpenter, Jr. (1984), "A versatile projectile motion board," Phys. Teach. 22 (6), 402-4.
Nelson, R. A., P. W. Bradshaw, M. C. Leinung, and H. E. Mullen (1976), "Mathematical analysis of a model rocket trajectory. II. The coast phase," Phys. Teach. 14 (5), 287-93.
Scott, A. (1987), "A new slant on projectile motion?," Phys. Teach. 25 (2), 93.
Kemp, H. R. (1986), "Projectile paths corrected for recoil and air resistance," Phys. Educ. 21, 19-23.
Ruari Grant, A. (1990), "A study of the trajectories of projectiles," Phys. Educ. 25, 288-292.
Priyanto, A., I. Rahmawati, and M. P. Aji (2020), "An experiment using water volumetric flux to determine the initial velocity of projectile motion," Phys. Educ. 55 (1), 015013 (4 pp.) .
Ben-Abu, Y. (2019), "The symmetry of the Paris gun: when theory is foiled by atmospheric effects," Phys. Educ. (UK) 54 (4), 043008 (7 pp.) .
Pili, U. and R. Violanda (2019), "Using a Lebron James free throw video clip to demonstrate projectile motion and energy conservation," Phys. Educ. (UK) 54 (1), 015021 (10 pp.) .
Wijaya, P. A., U. Fauzi, and F. D. E. Latief (2019), "A simple determination of air drag using video tracker and modifiable projectile launcher," Phys. Educ. (UK) 54 (5), 055009 (8 pp.) .