The ill-posed projectile problem of finding the source height from spattered droplets of viscous fluid is a longstanding obstacle to accident reconstruction and crime-scene analysis. It is widely known how to infer the impact angle of droplets on a surface from the elongation of their impact profiles. However, the lack of velocity information makes finding the height of the origin from the impact position and angle of individual drops not possible. From aggregate statistics of the spatter and basic equations of projectile motion, we introduce a reciprocal correlation plot that is effective when the polar launch angle is concentrated in a narrow range. The vertical coordinate depends on the orientation of the spattered surface and equals the tangent of the impact angle for a level surface. When the horizontal plot coordinate is twice the reciprocal of the impact distance, we can infer the source height as the slope of the data points in the reciprocal correlation plot. If the distribution of launch angles is not narrow, failure of the method is evident in the lack of linear correlation. We perform a number of experimental trials, as well as numerical calculations and show that the height estimate is relatively insensitive to aerodynamic drag. Besides its possible relevance for crime investigation, reciprocal-plot analysis of spatter may find application to volcanism and other topics and is most immediately applicable for undergraduate science and engineering students in the context of crime-scene analysis.
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August 2011
PAPERS|
August 01 2011
Locating the source of projectile fluid droplets
Christopher R. Varney;
Christopher R. Varney
Department of Physics and Astronomy,
Washington State University
, Pullman, Washington 99164-2814
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Fred Gittes
Fred Gittes
Department of Physics and Astronomy,
Washington State University
, Pullman, Washington 99164-2814
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Am. J. Phys. 79, 838–842 (2011)
Article history
Received:
March 10 2011
Accepted:
April 26 2011
Citation
Christopher R. Varney, Fred Gittes; Locating the source of projectile fluid droplets. Am. J. Phys. 1 August 2011; 79 (8): 838–842. https://doi.org/10.1119/1.3591319
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