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Blood Spatter Activity

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Blood Spatter Activity

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    1. Blood Spatter Activity Introduction

    3. THE CRIME SCENE “On the night of August 16, 1991, in a house in Apohaqui, New Brunswick, in a case that shocked a small town community, blood splatter expert Pat Laturnus was called in to investigate a tragic accident that had left a woman dead. Her husband was distraught but something about his story was not adding up and the evidence began to tell another story altogether. . . .”

    4. Let’s take a look at the crime scene as it unfolds. . . http://www.thehistorychannel.co.uk/site/tv_guide/full_details/Crime/programme_2728.php

    5. Blood Splatter Evidence Activity Blood spatter evidence plays a key part in forensic analysis. We are going to see how reliably we can predict the height of a blood drop of known diameter, if we are able to measure diameter and precisely plot the relationship between these two variables.

    6. Introduction continued…… Blood drop evidence has been collected from a piece of paper laid on the floor, and blood droplets were released from perpendicular locations of various heights. We will assume that DNA fingerprinting has already been used to determine that these drops came from our victim.

    7. Directions for Analysis of Blood Drop Size Data collection will be done in a small group. Each group will receive a copy of the results of blood dropped from heights of 0.5m, 1.0m, 1.5m, 2.0m, 2.5m, and 3.0m.

    8. Analysis continued….. Measure the diameter (in mm) of the drop for each of the different distances dropped. Fill in the data table on your worksheet. Follow the directions to generate a regression model that best fits your data.

    9. The demise of John Wayne

    10. Blood spatter evidence recovered. Determine the diameter of the blood spatter evidence collected from the scene and determine the height from which the blood drop fell. (This may reflect the height of the wound and help determine the site.)

    13. Assembling the Impact angle apparatus Tape one end of the clipboard to a table by making a hinge out of tape. The clipboard should be right at the edge of the table. Hold the protector to the edge of the clipboard so that the protractor is perpendicular to the table top and aligned so that the center of the protractor is at the edge of the hinged-end of the clipboard. See the figure in the next slide.

    14. Impact Angle Apparatus

    15. Select an Impact Angle to Study Your data table (on your worksheet) includes angles from 10° to 90°. Once you have selected an impact angle, indicate the angle on the card and then attach the card to the board.

    16. Clipboard

    17. Directions continued…. Set the angle of the board using the protractor so that the board will have the correct impact angle. You will need to work together as a team to achieve this. To obtain the desired impact angle, set the impact angle board to a protractor setting of 90° minus the desired impact angle. (For example, to obtain a 60° impact angle, set the board at a protractor setting of 30°).

    18. Directions continued…. Using the Simulated Drip and Projected Blood, place the dropper at approximately 30 cm above the impact angle board. Allow two to three drops to fall sequentially onto the card. Move your hand so that the drops don’t overlap. Using multiple drops will allow you to see the variation that single drops may display when striking the surface. Leave the card in position for 2-3 minutes before carefully removing it.

    19. Directions continued….. Allow the drops to dry thoroughly on the cards and then store in a safe place. When we return, we will record your observations including a sketch in the data table provided. We will also include the diameter and length of the circle or ellipse created.

    20. Calculations with Blood Spatters To find the point of hemorrhage (POH), you must first determine the two-dimensional point of convergence (POC). The POC is the intersection where lines drawn through the center of the individual drops meet (at the X-Y axis intersection). This is determined by drawing lines or placing strings through the long axis of individual spatters.

    21. Point of Convergence (POC)

    22. Can you complete this one?

    23. Angle of Impact (AOI) The AOI for representative bloodstains helps to generate the 3rd dimension (z-axis) in a crime scene. This shows how high up off the ground the impact occurred.

    24. To Determine the Angle of Impact (AOI): Where opposite = width (W) and hypotenuse = length (L) Angle of impact = ArcSIN of W/L ratio First calculate ratio (W/L) You should remember that you can use SIN-1(2nd key) to get degree of AOI.

    25. To complete our Blood Spatter Project . . . In a small group, look over the information gathered from the Blood Spatter Lab activity. Complete the lab analysis worksheet provided.

    26. Citations www.historychannel.co.uk www.bloodsplatter.com/BPAtutorial.htm www.marshall.edu/cellcentral/GHA/cabinblood.htm www.marshall.edu/cellcentral/GHA/blooddroplab.htm The Forensic Examiner – Summer 2005: Article by Louis L. Akin, LPI Bloodstain Pattern Analysis tutorial by J. Slemko forensic consulting

    27. Citations, continued. Ward’s bloodspatter analysis lab kitBloodstain Pattern Analysis tutorial by J. Slemko forensic consulting

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