Based on the findings, the blood spat was from a close distance. From a height of origin of 52.88 cm, the victim was not using force that could cause fatal impact. Thusly, the inmate did not commit suicide. Conversely, the inmate was murdered but did not die through a struggle since there was no a trail of blood left at the crime scene ( Comiskey et al., 2016) . The theory of drop atomization and trajectories are useful in analyzing the impact which is relevant to the analysis of blood spat from gunshot wounds. Interpretation of backward spatter of blood rules out the possibility of blood traveling a distance more than 1.8m ( Josserand & Thoroddsen, 2016) . The position of the source of the blood is obtained through the process of reconstructing the backward trajectory of blood. This is basically based on inspecting the trajectory of blood stains basing on the flight of the drops. There is the possibility of mathematical errors but other supporting evidence consolidate what one sees. When predicting vertical positions using straight lines, there is a systematic error in the region of origin. The method of strings is also commonly associated with errors in the height of origin. These errors have a significant margin averaging 50% ( Comiskey et al., 2016) . This is a significant value that cannot be easily ignored. Therefore, there is the need to use other forms of evidence collection as well as conducting multiple analysis of mathematical outcomes of the case. In this case, the fact that the process of coming up with conclusions involved determining the area of origin and convergence. The data in this case can be used universally to search for the area and height of origin. The only thing that changes is the figures since they vary from one incident to another. Usually, blood does not behave like other fluids such as water ( Larkin & Banks, 2016) . Its target area affects the resulting shape of drops. In that regard, forensic analysis falls within universally agreed standards.
Reference
Comiskey, P. M., Yarin, A. L., Kim, S., & Attinger, D. (August 02, 2016). Prediction of blood back spatter from a gunshot in bloodstain pattern analysis. Physical Review Fluids, 1, 4.)
Delegate your assignment to our experts and they will do the rest.
Josserand, C., & Thoroddsen, S. T. (2016). Drop impact on a solid surface. Annual review of fluid mechanics , 48 , 365-391.
Larkin, B. A., & Banks, C. E. (2016). Recent advances in bloodstain pattern analysis. Forensic Science: A Multidisciplinary Approach, 12,1.
