Topics include arson, burns, smoke inhalation, exposure to toxic fumes and chemicals, transportation catastrophes and other industrial accidents that have forensic implications. Special emphasis is placed on the forensic assessment processes required of the forensic nurse in mass casualty management, dealing with workplace terrorism and hostage scenarios, and post-crisis interviewing of survivors and responders. Emphasis is placed upon the key components of high-quality and valuable images that can withstand legal scrutiny and assist investigators with documentation and interpretation of findings at a scene or on a body. This course reviews sworn expert testimony in the legal system with a focus on declarations, depositions and courtroom testimony, and the differences between each of these.
The aim is to apply principles and concepts from a variety of social science disciplines e. Topics include how technology changes relationships, the cumulative advantages and disadvantages associated with technology, digital natives versus digital immigrants, the pace of technological change, changes to the nature of how people learn and think, and the meaning of technology in society.
An introduction to the structure and function of living organisms. The objective is to use knowledge about biological principles and scientific reasoning to make informed decisions about the natural world.
Topics include the chemical foundations of life, cell biology, genetics, evolution, ecosystems, and the interdependence of living organisms. Discussion also covers the importance of the scientific method to biological inquiry and the impact of biological knowledge and technology on human societies.
Students may receive credit for only one of the following courses: Fulfills the laboratory science requirement only with previous or concurrent credit for BIOL A hands-on study of the structure and function of living organisms.
The goal is to apply the scientific method and to use scientific and quantitative reasoning to make informed decisions about experimental results in the biological sciences. Laboratory exercises emphasize the scientific method and explore topics such as the chemical foundations of living organisms, cell structure and function, and the classification of organisms.
The aim is to learn to apply the scientific method to forensic evidence and distinguish between reality and popular misperceptions of the roles and importance of forensic science and its practitioners.
Discussion covers the "CSI effect," the scientific method as it applies to forensic evidence, ethical practices, and legal aspects of the field.
Topics include the definition of forensic science and how it has evolved, disciplines within the field, ethical codes, and case law. A study of the general principles and theories of criminal procedure and evidence.
The goal is to interpret statutes and case law, identify relevant issues, and evaluate the integrity and admissibility of evidence. Topics include due process, arrest, search and seizure, and the evaluation of evidence and proof. Recent developments in the field are discussed.
An intensive study of the analysis of physical evidence in the crime laboratory, with practical laboratory exercises. The objective is to apply skills expected of an entry-level professional in the investigative forensics field that are necessary for the practical analysis of evidence in a criminal investigation.
Topics include the comparative disciplines, including impression evidence analysis, trace evidence analysis, and firearms analysis. Further intensive study of the analysis of physical evidence in the crime laboratory, with practical laboratory exercises.
The goal is to apply skills expected of an entry-level criminalist to the practical analysis of evidence in a criminal investigation. Topics include the applications of the scientific disciplines, including bloodstain pattern analysis, questioned document analysis, controlled dangerous substances analysis, and DNA analysis.
A comprehensive study of toolmark evidence, including toolmarks imparted by firearms.
Discussion covers the practical analysis of evidence in a criminal investigation. The aim is to assess toolmarks; examine, compare, evaluate, and verify firearm and toolmark evidence; and convey findings.
Topics include comparison methodologies, historical and mechanical foundations of toolmarks, and legal aspects. Focus is on developing the foundational knowledge and applied skills expected of an entry-level professional in the firearms and toolmarks field. An overview of delinquent and criminal behavior from a developmental, cognitive-behavioral perspective.
The aim is to apply theoretical perspectives behavioral, emotional, and cognitive to analyze real or hypothetical criminal scenarios; to identify the various factors that encourage or discourage criminal behavior; and to explain the use of risk assessment tools at various stages of the criminal justice process.
Factors that influence the development of adults and juveniles on the road to crime are examined to assess culpability for criminal behavior. An examination of the investigation of crime scenes. The objective is to apply skills expected of an entry-level professional in the investigative forensics field.
Topics include the crime scene, crime scene documentation, evidence, and post-crime scene activities. An examination of crimes involving the use of computers.
Topics include federal and state laws and investigative and preventive methods used to secure computers. Case studies emphasize security. An intensive look at medical and legal investigations into causes of death.
The objective is to perform investigative functions at a death scene, determine and apply forensic testing, and analyze and effectively communicate investigative information. Topics include the difference between the medical or pathological and legal or criminal components of investigations into causes of death, medical and investigative terminology, and the impact of ethics on prosecutions and convictions.
Case studies illustrate practical applications of various forms of forensic styles and parameters. A study of the technical and legal issues facing computer crime investigators and digital forensic examiners.
The objective is to determine the most effective and appropriate forensic response strategies to support computer crime investigative efforts involving various digital technologies; apply forensic best practices to both the collection and handling and the analysis of digital evidence; and appropriately communicate complex technical and investigative information in an accurate, ethical, and comprehensive manner.
Focus is on acquiring the skills to identify and collect potential digital evidence at a crime scene; analyze that evidence using forensically sound methods; and report forensic findings, both verbally and in writing.Master’s Degree in Forensic Science.
The Forensic Science concentration is provided by UF’s College of Pharmacy. This degree program consists of 18 credits of required courses and 14 credits of electives covering a wide range of forensic disciplines. 2nd Possibility: Computer Game Create a Jeopardy PowerPoint or similar game to be used as a review for the final.
In the game Jeopardy an answer is given and the participants must give a question that matches the answer. Merge your interest in investigative science with your nursing experience and commitment to victim advocacy to become a forensic nurse.
Work with law enforcement, the legal community, and death investigators, to ensure your patients get the best support and medical care. Forensic Science: The Basics explains every aspects of crime scene investigation, moving from basic areas of criminalistics and beyond to pathology, anthropology, and engineering.
It also explores new and emerging areas such as forensic r-bridal.coms: 1. Provides a comprehensive, updated guide to forensic nursing science, paying special attention to the International Association of Forensic Nurses’s (IAFN) goals for forensic nursing.
Retains a focus on assessment skills and the collection and preservation of evidence, following the established guidelines of the forensic sciences.
The clear and accessible style of this second edition makes this book ideal for all forensic scientists, applied statisticians and graduate students wishing to evaluate forensic findings from the perspective of probability and decision analysis.