References
- Bureau of Criminal Apprehension – Minnesota Department of Public Safety, Forensic Science – Shooting Scene Reconstruction. (2022). https://dps.mn.gov/divisions/bca/bca-divisions/forensic-science/Pages/forensic-programs-crime-scene-ssrecon.aspx (accessed February 17, 2022).
- Walters M, Liscio E. The accuracy and repeatability of reconstructing single bullet impacts using the 2D ellipse method. J Forensic Sci. 2020;65(4):1120–1127.
- Kerkhoff W, Alberink I, Mattijssen E. An empirical study on the relation between the critical angle for bullet ricochet and the properties of wood. J Forensic Sci. 2015;60(3):605–610.
- Mattijssen EJAT, Pater KDH, Stoel RD. Ricochet behavior on glass—critical ricochet angles, ricochet angles, and deflection angles. J Forensic Sci. 2016;61(6):1456–1460.
- Mattijssen E, Kerkhoff W. Bullet trajectory reconstruction – methods, accuracy and precision. Forensic Sci Int. 2016;262:204–211.
- Liscio E, Guryn H, Stoewner D. Accuracy and repeatability of trajectory rod measurement using laser scanners. J Forensic Sci. 2018;63(5):1506–1515.
- Liscio E, Park J. The lead-in method for bullet impacts in metal panels. Forensic Sci Int. 2021;326:110914.
- Wallender L. Guide to drywall sizes, the spruce. 2021. https://www.thespruce.com/standard-drywall-sizes-and-thicknesses-1822827 (accessed January 16, 2022).
- Keleher M. Advanced concealed carry tactics. second edition. USA: Lulu.com; 2016; p. 20.
- Haag LC, Jason A. Drywall: terminal ballistic properties of forensic interest. AFTE J. 2010;42:229–252.
- Haag MG, Haag LC. Chapter 7—Projectile penetration and perforation. In: Haag MG, Haag LC, editors, Shooting incident reconstruction. 2nd ed. San Diego: Academic Press; 2011. p. 105–124.