a. RATIONALE:
It’s not uncommon to find bloodstains at a crime scene, especially if a violent crime has been committed. These bloodstains are crucial for forensic scientists because, when analyzed, they can fill in details about the crime that was committed and even help investigators solve the case. Each bloodstain is distinctive and it’s size and shape is dependant upon several factors like velocity, location, and angle of impact. For this experiment, I will be investigating bloodstain pattern analysis, or BPA for short. Specifically, I will examining how impact angle affects the size and shape of a blood spatter. This experiment, but more generally, BPA as a discipline is important to maintain the foundation of the judicial system. This may seem like a bit of an exaggeration, but it isn’t. BPA allows criminal investigators to gain a better understanding of the scenario that occurred at a crime scene by analyzing the distinct blood spatters left behind. With this information, the investigators are then able to
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I will be attempting to answer the question of how does the impact angle affect the size and shape of a low velocity blood spatter? Going into my experiment, I believe that, as the angle of impact decreases, the elongation of a low velocity blood spatter will increase and the spines and satellites of the spatter will become more focused on the side opposite the angle of impact due to the gravitational force acting upon the blood spatter. Therefore, I expect that, if the impact angle is 90°, the blood spatter will be nearly spherical. The closer to zero that the impact angle becomes, the more oval-like I will expect the spatter will become (i.e. it will become longer and narrower). I also expect to see a distinct, though possibly small, change in shape at each level of the independent variable because each consecutive variable will vary by
Physical evidence left behind at a crime scene plays a crucial role in reconstructing the events that took place involving the crime. Bloodstain pattern analysis (BPA) is a discipline which utilizes the sciences of biology, physics, and mathematics. Bloodstain interpretation may be accomplished by direct scene evaluation and/or careful study of scene photographs in conjunction with detailed examination of clothing, weapons, and other objects regarded as physical evidence. The location, spreading, and appearance of bloodstains and spatters can be useful for interpreting and reconstructing the events that produced the bleeding. An investigator or bloodstain pattern analyst can decipher from individual bloodstains the direction and angle
One of the most important purposes of physical evidence is to establish the identity of a suspect or victim. Some of the most valuable clues at a crime scene are fingerprints. "Processing a crime scene" is a long, tedious process that involves focused documentation of the conditions at the scene and the collection of any physical evidence that could possibly shed light on what happened and point to who did it.
The world of Forensic Scientist is an amazing and fascinating place. There are so many aspects that go into forensic science but in this paper we are only covering bloodstain spatter patterns. Bloodstain spatter patterns are not solely used to solve crimes but I do feel it is one of the most important. Bloodstains never lie.
The understanding of blood spatter patterns is not a widely recognized forensic practice. Bloodstain pattern interpretation (BPI) is commonly used in murder investigations, but could be utilized in everything from simple assault to mass murders if the number of trained professionals increased. BPI can reveal critical information into reinventing a given crime scene. Everything from the number of blows, stabs or shots a victim was given, the movement that was undergone by the victim and assailant after bloodshed began, position of objects at the crime scene and the type of weapon, if any, that was used can be uncovered.
For this experiment student will identify the individual blood types through the antigen and antibody reaction by using the anti- A, Anti- B and Anti- Rh serums we will be able to identify the different types of blood. Red blood cells also known as erythrocyte are small cells shaped like an oval however they have a plasma membrane but no nucleus. Hemoglobin is the protein that allows the red blood cells to bind easily with oxygen. While hematopoiesis is known as blood cell formation. The independent variable would be the Red blood cells. While the dependent variable would be the Antibodies and the antigens
Blood spatter analysts are a crucial part of a homicide investigation. They examine the blood stains left behind at a crime scene with the help of criminal investigators. They try to find a pattern or trail with the blood to figure out what happened at the crime scene. These blood patterns can show where the victim was hit, how they were hit, if they struggled, and what kind of weapon the killer used. They use many techniques to collect evidence that can be analyzed at the lab. Common techniques are measuring the diameter of the blood drop, measuring the spatter zone, and taking pictures. Many analysts try to act out the homicide scene to piece together the crime scene and figure out what happened. They also sketch out the scene to go along
he Blood Spatter Analyst (also known as "Bloodstain Pattern Analyst") uses many techniques to collect and analze blood that has been left behind at a crime scene. They uses swabs and ultraviolet light, as well as photgraphy to collect and analyze trace evidence and recreate spatters. After analyzation of the spatter, they can determine what weapon was used, which direction the suspect or victim went, the number of wounds the victim suffered, the trajectry of a projectile, and what occured during a violent crime.
How to Become a Blood Spatter Analyst: Career and Salary Information. (n.d.). Retrieved September 13, 2017, https://www.criminaljusticedegreeschools.com/criminal-justice-careers/blood-spatter-analyst/
Bloodstain pattern analysis (BPA), known in the criminal justice field as blood splatter analysis, has been studied since the 1890s. Blood splatter, or bloodstain pattern constructional readings, is a technique that seeks to piece together the incident that caused an individual’s bleeding. Understanding blood splatter on a wall or various surfaces can be instrumental in formulating if a crime was committed and if the blood discovered at the crime scene can be used as evidence. The first documentation of blood splatter research occurred at the Institute for Forensic Medicine in Poland, by Dr. Eduard Piotrowski . During Dr. Piotrowski’s research and documentation period, where he used live bunnies to research blood splatter from head
There are different types of patterns that blood splatter makes. It can be a drop, a messy splatter, to just a little pool of blood it all just depends on what caused it to happen. Forensics and law enforcement officers can determine what kind of object was used in a murder case based on the blood splatter pattern.
belonging and family, whereas in the outside world they were seen as enemies. As a result, it becomes apparent that minorities from different backgrounds face similar difficulties when trying to assimilate into the American culture. It is through these difficulties that they begin to develop feelings of loneliness, and what can potentially motivate them to go down a path of delinquency, as it is a lot easier than having to face the challenges of trying to adapt to a different culture.
Forensic science is a key aspect of Criminal Justice that helps rid the streets of lunatics and murderers. One of the most important fields of forensic science is blood spatter analysis. Under the Crime Scene Investigation, analysts gather the information that could eventually lead to a victim’s killer. Basic and complex information can be found when analyzing blood. We can learn what kind of weapon was used, the time of death of a victim and other important facts that can help a case. The pattern that the blood gives off give forensic scientists the tools that they need to help solve cases.
In the Molly Wright case she was bludgeoned to death in her home and the blood stain patterns that I analyzed form the experiment where the point of impact was when she was hit there was a lot of blood located at the point Mrs. Wright was hit upon impact the area where Wright was struck the blood splatter did however splatter all around and the killer would have for sure had plenty of blood stains on their clothing along with the splatter landing on everything around where she was hit this would have happened every-time she was hit. After the first impact the blood splatter would have gotten worse and worse with the open wound located on her head where she was hit repeatedly with the blunt object.
lood. Sticky, hot, messy, awful blood. For most of us, the sight of it turns the stomach, but in the court of law, blood can tell a lot more about a crime scene than you might think. Forensic bloodstain pattern analysis (BPA) is the interpretation of bloodstains for the purpose of reconstructing the events that took place in the case of violent crimes. Using the sciences of fluid dynamics and trigonometry, BPA examiners form opinions about what did or did not happen by examining elements of the stains such as the size, shape, distribution and location of the bloodstains. Following the analysis of the crime scene, BPA examiners then prepare to present often-critical evidence to a jury in the court of law. “In many cases including here in Australia BPA is essential and pivotal to the investigation” and can contribute greatly to the outcome of a criminal trial under South Australian law.
Given that blood spatter analysis is an emergent field, with rapidly occurring developments have significant probative implications for the court system, this project will seek to examine the multi-faceted elements of blood spatter analysis to provide an overview of the field’s different dimensions. Focusing on technical developments, analytical interpretation and court relevance, the project will propose that blood spatter’s analysis as a mainstream element of the CSI toolkit results from the combination of physical sciences and analytical rigor which lies at its core. Beginning with questions of technical and physical science, the project will