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The most remarkable weapon in the fight against crime, forensic science turns bullet trajectories, bodily fluids, and the very structure of our DNA into damning witnesses of our every act. Jay Siegel tracks the journey of evidence from crime scene to courtroom and sweeps away the myths to reveal the incredible complexities and surprising pitfalls of a field that is crucial to our struggle for justice. Packed with examples from real-life cases, this revised and updated edition covers all major areas of forensic science, including drugs, trace evidence, and crime scene investigation. Pathology, anthropology, and the laws that govern this evidence all come under the scalpel in a fascinating introduction to one of the most compelling elements of criminal investigation.
Forensic science has captured the attention of the public, as illustrated by the popularity of television crime shows that involve forensics. This introductory level, easy to read text provides readers with:• a comprehensive overview of the field• an introduction to careers in forensic science• the role of governmental agencies in forensic science • techniques used by forensic scientists• the role of forensic science in the legal system • forensic science specialties• case studies that highlight the importance of forensic science A Beginner's Guide to Forensic Science is an ideal place for anyone interested in the field to begin exploring the world of forensic science. High school and college students, as well as those simply interested in learning more about forensic science will thoroughly enjoy this book.
Written by the prominent art authentication and forgery detection expert David Rudd Cycleback, this small book is a primer on ultraviolet, infrared and visible light in forensic science, art and collectible examination, commerce and daily life. Topics include infrared examination of paintings, currency and license counterfeit detection, invisible ink writing, crime scene investigation, identification of alterations and restoration, and the light techniques used in forgery detection of trading cards, posters, historical documents, art glass and other collectibles. Written for the amateur scientist, junior detective and art and memorabilia collector and dealer.
As forensic science continues to play a wider role in the investigation of crimes and apprehension of criminals, those without crime scene or crime lab training must now become familiar with the techniques and language of the forensic scientist. Avoiding the complicated science and graphic violence typical of most forensic references, this book is written specifically for those without forensic science experience. While it provides a professional reference for those not steeped in the details of forensic science, the wealth of instructor material available for teachers and its pedagogical approach make this an ideal textbook for high school and introductory level courses. Following up on the tremendously popular first edition, Forensic Science: The Basics, Second Edition now adds the insight of a new co-author who is known nationally for training instructors how to teach forensic science at all levels of education. The book takes readers from the initial evidence collection process, through the evaluation procedures, right up to and including the courtroom presentation. Packed with case studies, photographs, and exercises, this book provides everything the non-scientist needs to be able to understand and utilize the vital research approaches that forensic science can offer. "Test Yourself" questions at the end of each chapter familiarize you with the language and approaches needed to understand and communicate with experienced crime scene investigators and laboratory personnel. Offering the forensic sciences at their most accessible, Forensic Science: The Basics, Second Edition is a valuable resource for detectives, journalists, prosecutors, defense attorneys, and other non-science professionals who need to understand, interpret, and report on the newest advances in crime scene investigation. PowerPoint® lecture slides, test bank, and other ancillary material on CD-ROM is available with qualifying course adoption
The range of species that fall within the realm of wildlife crimes is extensive, ranging from ferns and orchids to bald eagles and great whales. Solving these crimes is rarely dependent on the testimony of witnesses or victims. An ever-increasing number of research groups are applying scientific tests to animal and plant studies alike. However, until now, whatever progress is available in this area has remained scattered through the literature. Forensic Science in Wildlife Investigations focuses on the developing test methods that can be applied to wildlife crimes. In large part, the tests described are drawn from human-based research. Edited by Adrian Linacre, a noted forensic researcher and one of the principal pioneers active in wildlife forensics, this volume collects the work of others working across the world with both plant and animal investigations. While the book contains valuable approaches that lab investigators can employ, the scientific material is written at a level that requires no more than a fundamental knowledge of biology. Any required scientific information is provided in separate boxes. Offering practical guidance, it helps investigators and lab technicians decide on best methods, including a determination of when basic microscopy is sufficient, when DNA testing should occur, and what tests or combination of tests should be executed in a particular circumstance. The text illustrates how to identify the species and geographic region of origin of an unknown sample. Demonstrating the latest methods through real-world case studies, this volume provides the direction and practical advice needed by legal and police professionals seeking to gain the evidence needed to prosecute wildlife crimes.
Have you ever wondered whether the forensic science you’ve seen on TV is anything like the real thing? There’s no better way to find out than to roll up your sleeves and do it yourself. This full-color book offers advice for setting up an inexpensive home lab, and includes more than 50 hands-on lab sessions that deal with forensic science experiments in biology, chemistry, and physics. You’ll learn the practical skills and fundamental knowledge needed to pursue forensics as a lifelong hobby—or even a career. The forensic science procedures in this book are not merely educational, they’re the real deal. Each chapter includes one or more lab sessions devoted to a particular topic. You’ll find a complete list of equipment and chemicals you need for each session. Analyze soil, hair, and fibers Match glass and plastic specimens Develop latent fingerprints and reveal blood traces Conduct drug and toxicology tests Analyze gunshot and explosives residues Detect forgeries and fakes Analyze impressions, such as tool marks and footprints Match pollen and diatom samples Extract, isolate, and visualize DNA samples Through their company, The Home Scientist, LLC (thehomescientist.com/forensics), the authors also offer inexpensive custom kits that provide specialized equipment and supplies you’ll need to complete the experiments. Add a microscope and some common household items and you’re good to go.
Genealogists are now using molecular genealogy-comparing and matching people by matrilineal DNA lineages-mtDNA or patrilineal Y-chromosome ancestry and/or racial percentages tests. People interested in ancestry now look at genetic markers to trace the migrations of the human species. Here's how to trace your genealogy by DNA from your grandparents back 10,000 or more years. Anyone can be interested in DNA for ancestry research, but of interest to Jews from Eastern Europe is to see how different populations from a mosaic of communities reached their current locations. From who are you descended? What markers will shed light on your deepest ancestry? You can study DNA for medical reasons or to discover the geographic travels and dwelling places of some of your ancestors. How do Europeans in general fit into the great migrations of prehistory that took all to where they are today based on their genetic DNA markers and sequences? Where is the geographic center of their origin and the roots of all people? Specifically, how can you interpret your DNA test for family history as a beginner in researching ancestry and your own family history?

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