Relevant bibliographies by topics / FORENSIC FIREARMS BALLISTICS

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'FORENSIC FIREARMS BALLISTICS'

Author: Grafiati
Published: 11 March 2023

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Journal articles on the topic "FORENSIC FIREARMS BALLISTICS"

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Euteneuer, Jan, and Cornelius Courts. "Ten years of molecular ballistics—a review and a field guide." International Journal of Legal Medicine 135, no. 4 (February 16, 2021): 1121–36. http://dx.doi.org/10.1007/s00414-021-02523-0.

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AbstractMolecular ballistics combines molecular biological, forensic ballistic, and wound ballistic insights and approaches in the description, collection, objective investigation, and contextualization of the complex patterns of biological evidence that are generated by gunshots at biological targets. Setting out in 2010 with two seminal publications proving the principle that DNA from backspatter collected from inside surfaces of firearms can be retreived and successfully be analyzed, molecular ballistics covered a lot of ground until today. In this review, 10 years later, we begin with a comprehensive description and brief history of the field and lay out its intersections with other forensic disciplines like wound ballistics, forensic molecular biology, blood pattern analysis, and crime scene investigation. In an application guide section, we aim to raise consciousness to backspatter traces and the inside surfaces of firearms as sources of forensic evidence. Covering crime scene practical as well as forensic genetic aspects, we introduce operational requirements and lay out possible procedures, including forensic RNA analysis, when searching for, collecting, analyzing, and contextualizing such trace material. We discuss the intricacies and rationales of ballistic model building, employing different tissue, skin, and bone simulants and the advantages of the “triple-contrast” method in molecular ballistics and give advice on how to stage experimental shootings in molecular ballistic research. Finally, we take a look at future applications and prospects of molecular ballistics.
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Wong, Song W. "Gunshot Wounds: Practical Aspects of Firearms, Ballistics, and Forensic Techniques." Human Pathology 17, no. 5 (May 1986): 536. http://dx.doi.org/10.1016/s0046-8177(86)80052-1.

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Teal, Donald F. "Gunshot Wounds: Practical Aspects of Firearms, Ballistics, and Forensic Techniques." Plastic and Reconstructive Surgery 94, no. 1 (July 1994): 207–8. http://dx.doi.org/10.1097/00006534-199407000-00028.

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Shadwick, Joshua T., William R. King, Yan Zhang, Matthew C. Matusiak, and Bradley A. Campbell. "Assessing best practices in crime labs structure, processes, and performance." Policing: An International Journal 42, no. 5 (October 10, 2019): 751–66. http://dx.doi.org/10.1108/pijpsm-12-2018-0181.

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Purpose Forensic crime labs play an important role in the criminal justice system’s response to violent gun crimes in the USA. The purpose of this paper is to describe the methods of firearms analysis including ballistics imaging and proposed best practices for investigating gun crimes. A separate line of research has begun to explore the structure of forensic labs and how structure impacts lab performance. Design/methodology/approach To date, however, proposed best practices in firearms investigation have not been empirically tested within crime labs. The authors address this gap in the literature by using a mediation model examining organizational correlates of a limited number of tasks (identified by Peter Gagliardi’s 13 Critical Tasks) believed to enhance our final dependent measures, forensic crime lab outcomes (NIBIN acquisitions and hits). The authors examine, therefore, the relationship between organizational correlates, collected from a sample of publicly funded labs in the USA, on several of Gagliardi’s tasks and then explore the relationship of those tasks on our outcome variables: NIBIN acquisitions and hits. Findings Results indicate agency size and number of agencies serviced by a lab are significant factors associated with our mediating variables (Gagliardi’s tasks). Communication was identified as a significant task associated with achieving NIBIN acquisitions and hits. In general, this study underscores the importance of communication between labs and other institutional constituents for increasing ballistics imaging outputs. Furthermore, findings provide partial support for Gagliard’s tasks, by highlighting the role of enhanced communication on organization-based performance outcomes. Originality/value This study is the first to examine the mediating effect of Gagliardi’s tasks on the organizational performance of ballistics imaging systems within crime labs. In addition, this study examines the influence of organizational correlates on these mediating tasks.
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Emson, H. E. "Book Review: Gunshot Wounds: Practical Aspects of Firearms, Ballistics and Forensic Techniques." Medicine, Science and the Law 26, no. 1 (January 1986): 78. http://dx.doi.org/10.1177/002580248602600117.

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Froede, Richard C. "Gunshot Wounds-Practical Aspects of Firearms, Ballistics, and Forensic Techniques, 2nd edition." American Journal of Forensic Medicine and Pathology 20, no. 4 (December 1999): 387. http://dx.doi.org/10.1097/00000433-199912000-00015.

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Kudełka, Sławomir, and Tomasz Konopka. "Improvised firearms in the collection of the Forensic Laboratory, Voivodeship Police Headquarters in Kraków and the Department of Forensic Medicine, Collegium Medicum, Jagiellonian University — towards a systematics." Issues of Forensic Science 297 (2017): 66–71. http://dx.doi.org/10.34836/pk.2017.297.3.

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Despite a very large variety of improvised firearms, repeatability of certain actions of the manufacturers can be observed, reflecting the purpose to which such weapons are produced (e.g. poaching), and the availability of appropriate technologies. The aim of this article is to make an attempt to systematize improvised firearms on the basis of the expert opinions elaborated at the Weapon Research and Ballistics Department of the Voivodeship Police Headquarters in Kraków (LK KWP) as well as studies carried out on weapons belonging to the collection of the Department of Forensic Medicine (ZMS) in Kraków. Research material included both primitive devices made by using simple methods and without concern for accuracy or aesthetics, as well as fine-tuned pieces with individual design solutions or copies of factory-made weapons. Improvised firearms can generally be divided into conversions and own designs. The conversion most frequently applies to alarm, gas or pneumatic weapons. It consists in removing factory safety mechanisms or, in the case of pneumatic weapons, in introducing technical modifications, which enable to blast off the cartridge and discharge the projectile by means of gas pressure arising during combustion of the propellant. Own designs may contain certain factory elements, most frequently the barrel, however, in most cases, they are manufactured from scratch. Improvised firearms, even those without the original elements, typically use ammunition with projectiles or, in some cases, the so called blank ammunition converted into live ammunition by adding projectiles.
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Yatsenko, I. V. "Subject of forensic veterinary examination and its significance in the theory and practice of forensic examination." Uzhhorod National University Herald. Series: Law 2, no. 73 (December 15, 2022): 154–73. http://dx.doi.org/10.24144/2307-3322.2022.73.55.

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The article covers the issue of the forensic veterinary examination subject and reveals its significance in the theory and practice of forensic examination. It has been established that the subject of forensic veterinary examination is a set of factual data and circumstances of the case (proceedings) related to the harm caused to the health and life of the animal, in particular, the nature, mechanism, order, sequence, severity, lifetime or postmortem and the longevity of the formation of bodily injuries, the occurrence and spread of animal diseases, the occurrence of their injury or the cause of death, defective provision of veterinary care, safety and quality of animal feed and feed additives established by a forensic veterinary expert on the basis of using special knowledge, by using appropriate means (methods) based on the results of a comprehensive study of material and materialized objects, as carriers of information, in order to solve identification, diagnostic and situational tasks of forensic veterinary examination. It is shown that the actual data and circumstances that constitute the subject of complex forensic veterinary-biological, veterinary-molecular-genetic, veterinary-ballistic, veterinary-art, etc., are carried out by integrating special knowledge, in particular, in veterinary medicine, animal biology, molecular genetics, ballistics, art history are: species, group, age, sex and organic-tissue belonging of biological material of animal origin the presence or absence of poisons in the body of animals and their poisoning (mammals, animal hydrobionts, bees, etc.); damage and pestilence of animal hydrobionts caused by electro trauma, damage and death of animals from the action of firearms, explosive or projectiles. It is argued that the criterion for distinguishing closely related types of forensic examinations, in particular: forensic-veterinary, forensic-biological, forensic molecular-genetic, etc. are the properties of material objects of research and the direct subject of forensic-expert research. It is shown that the exact definition of the subject of forensic veterinary examination allowed: to develop and formulate typical issues, which are both tasks made for solving the forensic expert; outline the range of evidence that can be established during forensic veterinary examination; determine the nature of special knowledge of the forensic veterinary expert, which follows from the subject of forensic veterinary examination; conduct forensic veterinary examination of only those material objects that are material carriers of information within the subject of this examination or complex forensic examination by integrating special knowledge, in particular, in veterinary medicine and other sciences, in particular animal biology, toxicology, chemistry, ballistics, art criticism, etc.; to supplement part 2 of article 242 of the CPC with paragraph 6 on the obligatory appointment of a forensic veterinary examination to clarify the severity and nature of damage caused to the animal's health, as well as to determine the cause of death of animals; include recommendations on the appointment of a forensic veterinary examination in the content of methods for investigating certain types of offenses against animals; dissociate forensic veterinary examination from forensic examinations of related genera or species, in particular, forensic biological, forensic molecular genetics, etc.; develop methods and separate methods of forensic veterinary examination to study the properties of its specific material objects in order to obtain the information contained in them in order to solve typical expert tasks; initiate complex forensic veterinary and biological, veterinary-molecular-genetic, veterinary-ballistic, veterinary-art expertise, etc., by integrating special knowledge, in particular, in veterinary medicine, animal biology, molecular genetics, ballistics, art criticism, etc.; organize an effective forensic veterinary examination in a specialized expert institution; identify promising areas of research work in the field of forensic expertise in general and forensic veterinary expertise in particular.
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Waddington, P. A. J. "Heard, Brian J. (2008). HANDBOOK OF FIREARMS AND BALLISTICS: EXAMINING AND INTERPRETING FORENSIC EVIDENCE * Davison, Neil (2009). 'NON-LETHAL' WEAPONS." Policing 6, no. 1 (February 16, 2011): 93–95. http://dx.doi.org/10.1093/police/par016.

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Giverts, Р., and A. V. Kokin. "The Problem of Subclass Features in Forensic Firearms Identification." Theory and Practice of Forensic Science 15, no. 1 (April 19, 2020): 109–17. http://dx.doi.org/10.30764/1819-2785-2020-1-109-117.

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The Russian school of forensic firearms investigation traditionally recognizes common and individual features of traces on bullets and cartridge cases. The first are characteristics inherent in all weapons of the same model and describing their details in general: shape, size, location, relative position. The second type are individual characteristics, which are unique and present only in one firearm. The individual features are used for forensic identification, while the common can be used only for the identification of a firearm’s type and model. The Western (West Europe and the USA) methodology of forensic ballistic identification recognizes the third type of traits – subclass characteristics. These marks are the result of manufacturing processes and can be present in a group of sequentially produced parts. Conventionally they can be placed between class and individual characteristics. One of the problems in contemporary firearms identification is the wrong recognition of subclass marks as individual marks and, as a result, giving false-positive conclusions of identification. The article discusses the problem of subclass features, gives examples, presents a review of the literature. The influence of various technological processes on the possibility of showing up of these marks is described.
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Dissertations / Theses on the topic "FORENSIC FIREARMS BALLISTICS"

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Hamby, James Edward. "Forensic firearms examination." Thesis, University of Strathclyde, 2001. http://oleg.lib.strath.ac.uk:80/R/?func=dbin-jump-full&object_id=27327.

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The history of forensic firearms examination was evaluated to determine how the field has developed during the past 200 years; especially within the past 100 years. As aresult of this evaluation, some related issues were identified for study. The economic and general uses of firearms reference collections were considered as the collections represent potential security considerations within forensic laboratories. A survey was conducted to determine how firearms examiners used their collections, as well as their receptivity to augmenting the collections with modem technology such as photographs and CD-ROM's. A world-wide survey resulted in responses from 110 forensic laboratories. Examiners stated that the collections were used for training, repairing damaged evidence firearms, and demonstration purposes, and whilst they were prepared to accept modem techriology to augment their collection, stated that such augmentation could not replace the actual collection. Research was conducted to partially answer some legal issues, such as Daubert, et al., by test firing bullets from consecutively rifled barrels to obtain best known 'match' and 'non-match' bullets. To date, some 201 examiners from several countries have evaluated the bullet test sets with no errors. Further research was conducted by test firing four cartridges from 617 similar 9mm Glock pistols and microscopically evaluating the fired cartridge casings to determine if they were identifiable to themselves and not the other casings. All of the casings were identifiable to themselves and not to the other 616 casings. Advances in technology have allowed the development of automated ballistics imaging systems. Research, using the previously cited test bullets and cartridge casings, was conducted to evaluate the capability of the various systems, in conjunction with the abilities offirearms examiners. Three different automated systems were used to evaluate the bullets from the l0-barrel test results. One automated system was used to evaluate the 617 cartridge casings, again with excellent results.
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Lewey, Heather. "Examining Significant Differences of Gunshot Residue Patterns Using Same Make and Model of Firearms in Forensic Distance Determination Tests." Digital Commons @ East Tennessee State University, 2007. https://dc.etsu.edu/etd/2064.

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In many cases of crimes involving a firearm, police investigators need to know how far the firearm was held from the victim when it was discharged. Knowing this distance, vital questions regarding the re-construction of the crime scene can be known. Often, the original firearm used in commission of a suspected crime is not available for testing or is damaged. Crime laboratories require the original firearm in order to conduct distance determination tests. However, no empirical research has ever been conducted to determine if same make and model firearms produce different results in distance determination testing. It was the purpose of this study to determine if there are significant differences between the same make and model of firearms in distance determination testing. The findings indicate no significant differences; furthermore they imply that if the original firearm is not available, another firearm of the same make and model may be used.
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GUARNERA, LUCA. "Discovering Fingerprints for Deepfake Detection and Multimedia-Enhanced Forensic Investigations." Doctoral thesis, Università degli studi di Catania, 2021. http://hdl.handle.net/20.500.11769/539620.

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Forensic Science, which concerns the application of technical and scientific methods to justice, investigation and evidence discovery, has evolved over the years to the birth of several fields such as Multimedia Forensics, which involves the analysis of digital images, video and audio contents. Multimedia data was (and still is), altered using common editing tools such as Photoshop and GIMP. Rapid advances in Deep Learning have opened up the possibility of creating sophisticated algorithms capable of manipulating images, video and audio in a “simple” manner causing the emergence of a powerful yet frightening new phenomenon called deepfake: synthetic multimedia data created and/or altered using generative models. A great discovery made by forensic researchers over the years concerns the possibility of extracting a unique fingerprint that can determine the devices and software used to create the data itself. Unfortunately, extracting these traces turns out to be a complicated task. A fingerprint can be extracted not only in multimedia data in order to determine the devices used in the acquisition phase, or the social networks where the file was uploaded, or recently define the generative models used to create deepfakes, but, in general, this trace can be extracted from evidences recovered in a crime scene as shells or projectiles to determine the model of gun that have fired (Forensic Firearms Ballistics Comparison). Forensic Analysis of Handwritten Documents is another field of Forensic Science that can determine the authors of a manuscript by extracting a fingerprint defined by a careful analysis of the text style in the document. Developing new algorithms for Deepfake Detection, Forensic Firearms Ballistics Comparison, and Forensic Handwritten Document Analysis was the main focus of this Ph.D. thesis. These three macro areas of Forensic Science have a common element, namely a unique fingerprint present in the data itself that can be extracted in order to solve the various tasks. Therefore, for each of these topics a preliminary analysis will be performed and new detection techniques will be presented obtaining promising results in all these domains.
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Hodges, Stanley Keith. "Forensic Gunshot Residue Distance Determination Testing Using Identical Make and Model Handguns and Different Ammunitions." Digital Commons @ East Tennessee State University, 2008. https://dc.etsu.edu/etd/1915.

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The determination of how far a firearm was from a victim or target when it was discharged is a frequent request to crime laboratories. This determination requires test firing the firearm at various distances to compare gunshot residue patterns made during the test with patterns on the victim or target. Crime laboratories stipulate that the same firearm and ammunition used in commission of the crime must be used for this testing; however, little empirical evidence exists supporting this requirement. It was the purpose of this study to determine if there were any significant differences using different firearms and different ammunition in distance determination testing. The findings indicated that no significant differences occurred with different firearms but there were significant differences with different brands of ammunition.
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Chlostová, Barbora. "Kriminalistická balistika." Master's thesis, 2021. http://www.nusl.cz/ntk/nusl-440125.

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Forensic ballistics Abstract This thesis deals with one of the disciplines falling under forensic science, forensic ballistics. Forensic ballistics is a forensic field focused on firearms, ammunition and other objects used in shooting incidents associated with committing a crime. The aim of this thesis is to provide a basic explanation of the term forensic ballistics, ballistics evidence and briefly describe the most important methods of ballistics examination. At the end is also mentioned the legislation of firearms and ammunition. The diploma is divided into five chapters. First chapter is focused on the history of forensic ballistics, one part of this chapter describes the history on the territory of the Czech Republic, the other part deals with worldwide history. This section is complemented by several case that have become significant milestones for forensic ballistics, such as the case of Charles Stielow from the US state of New York. The following chapter provides a definition of forensic ballistics, its purpose and divides ballistics into several parts. Forensic ballistics is composed of four basic areas internal, intermediate, external and terminal ballistics and two others dealing with phenomena occur before and after the actual shot prenatal and postterminal ballistics. In the other part of the...
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Bohoněk, Miloš. "Kriminalistická balistika." Master's thesis, 2017. http://www.nusl.cz/ntk/nusl-267023.

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The purpose of this thesis is to provide a general introduction to the field of forensic ballistics. The thesis is based on the analysis and comparison of numerous Czech and international monographies and articles, as well as on findings derived from a supervised visit to the Institute of Criminalistics Prague. As such, it provides a compact and up-to-date overview of forensic ballistics in the Czech Republic. The thesis is composed of eight chapters followed by a bibliography, an abstract and keywords. Chapter One is introductory and lays out the purpose of the thesis, the goals and the methods used. Chapter Two takes a closer look at the history and evolution of forensic ballistics, both abroad and in Czechoslovakia. Chapter Three answers the question "What is forensic ballistics?" in detail. It contains a definition of forensic ballistics and provides a reader with information about the main purpose of forensic ballistics. Chapters Four to Six are the core of the thesis. Chapter four deals with the objects examined by the forensic ballistics and is therefore subdivided into four parts, addressing each object separately: firearms, ammunition, objects struck by a bullet, and further material and immaterial objects. Chapter Five concentrates on ballistic marks and as such is subdivided into five...
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Arendse, Wayne E. "Time-dependent effects of human blood on the microscopic comparison of fired bullets." Diss., 2008. http://hdl.handle.net/10500/2341.

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This dissertation consists of five chapters, each of which focuses on various aspects of the forensic discipline of Firearms and Toolmarks. This dissertation for the most part attempts to highlight the exposure of projectiles to blood and the degradation over time of the fine detail, which is necessary for microscopic examination. This study should be of interest to students and qualified role-players in forensic science, the criminal justice system, the law community and the general population globally. Chapter 1 identifies the research problem and the necessary steps that were taken to ensure that the research methodol.ogy applied is relevant and reliable. Chapter 2 focuses on various factors that have to be considered in damage to bullets and investigation procedures that should be followed to ensure that physical evidence is preserved for submitting to a forensic science laboratory. Chapter 3 investigates the degradation effects of fired bullets exposed to various materials in a laboratory environment and the timelines associated with the degradation effects. Chapter 4 evaluates the examination procedures for fired bullets and the contributing factors that may influence the striation marks on bullets needed for microscopic examination. It also examines the scientific method used for firearm identification, and explores the admissibility of physical evidence in a court of law. The final chapter, Chapter 5 discusses the findings and recommendation of this research study.
Criminology
M. Tech. (Forensic Investigation)
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Tshishonga, Mpho. "The use of firearm evidence in the investigation of murder." Diss., 2018. http://hdl.handle.net/10500/24235.

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In this dissertation, the researcher wants to establish the use of firearm evidence in the investigation of the crime of murder. Firearm evidence can be of significance to the investigators during murder investigations. To determine the importance of this evidence the researcher has formulated the following research questions to address the research problem:  What is the role of forensic science in the investigation of crimes?  How can firearm evidence be used in the investigation of murder? An empirical research design and qualitative research approach were used for this dissertation. International and national literature sources were consulted and the researcher conducted semi-structured interviews with the investigators from Akasia SAPS, crime scene experts from the Pretoria North LCRC and ballistics experts from the Forensic Science Laboratory in Silverton, Pretoria. The role of forensic science and the use of firearm evidence in the investigation of murder were established. Recommendations have been made for further research on aspects highlighted by the findings.
Police Practice
M. Tech. (Forensic Investigations)
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Siegmund, Bernward. "Untersuchung der Geschosswirkung in der sehr frühen Phase unter besonderer Berücksichtigung der Hochgeschwindigkeitsmunition." Doctoral thesis, 2006. http://hdl.handle.net/11858/00-1735-0000-0006-B33E-8.

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Books on the topic "FORENSIC FIREARMS BALLISTICS"

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Firearms, the law, and forensic ballistics. 3rd ed. Boca Raton: Taylor & Francis, 2012.

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Warlow, T. A. Firearms, the law and forensic ballistics. London: Taylor & Francis, 1996.

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Gerald, Burrard. The identification of firearms and forensic ballistics. Birmingham, Ala: Palladium Press, 2002.

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Matthew, Broyles, ed. Careers in ballistics investigation. New York, NY: Rosen Central, 2008.

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Hamilton, Sue L. Forensic ballistics: Styles of projectiles. Edina, Minn: ABDO Pub. Co., 2008.

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Rollins, Barbara B. Ballistics. Mankato, Minn: Capstone Press, 2004.

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Pakistan. Law of firearms & explosives, with principles of forensic ballistics. 4th ed. Lahore: Law Pub. Co., 1987.

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Hatcher, Julian S. Textbook of firearms investigation, identification, and evidence. Birmingham, Ala: Palladium Press, 1998.

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Detective work with ballistics. New York, NY: Rosen Pub. Group, 2008.

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Handbook of firearms and ballistics: Examining and interpreting forensic evidence. Chichester, West Sussex, England: Wiley & Sons, 2008.

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Book chapters on the topic "FORENSIC FIREARMS BALLISTICS"

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Mohd Razali, Muhamad Hasbullah, and Balkiah Moktar. "Analysis of Forensic Ballistic Specimens for Firearm Identification Using Supervised Naive Bayes and Decision Tree Classification Technique." In Regional Conference on Science, Technology and Social Sciences (RCSTSS 2014), 241–49. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-0534-3_23.

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"Internal Ballistics." In Firearms, the Law, and Forensic Ballistics, 106–27. CRC Press, 2004. http://dx.doi.org/10.1201/9780203568224-14.

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"Firearms Legislation and the Definition of a Firearm." In Firearms, the Law, and Forensic Ballistics, 31–62. CRC Press, 2004. http://dx.doi.org/10.1201/9780203568224-11.

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"Internal Ballistics." In Firearms, the Law, and Forensic Ballistics, Third Edition, 113–36. CRC Press, 2011. http://dx.doi.org/10.1201/b11451-6.

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"Internal Ballistics." In Firearms, the Law, and Forensic Ballistics, Second Edition. CRC Press, 2004. http://dx.doi.org/10.1201/9780203568224.ch5.

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"Firearms Legislation and the Definition of a Firearm." In Firearms, the Law, and Forensic Ballistics, Third Edition, 25–64. CRC Press, 2011. http://dx.doi.org/10.1201/b11451-3.

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"Firearms Legislation and the Definition of a Firearm." In Firearms, the Law, and Forensic Ballistics, Second Edition. CRC Press, 2004. http://dx.doi.org/10.1201/9780203568224.ch2.

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"External Ballistics and Cartridge Loadings." In Firearms, the Law, and Forensic Ballistics, 128–67. CRC Press, 2004. http://dx.doi.org/10.1201/9780203568224-15.

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"Proof Marks and the Proof of Firearms." In Firearms, the Law, and Forensic Ballistics, 410–55. CRC Press, 2011. http://dx.doi.org/10.1201/b11451-17.

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"Proof Marks and the Proof of Firearms." In Firearms, the Law, and Forensic Ballistics, 361–402. CRC Press, 2004. http://dx.doi.org/10.1201/9780203568224-20.

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Conference papers on the topic "FORENSIC FIREARMS BALLISTICS"

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HENWOOD, BAILEY, RACHAEL HAZAEL, and KATHERINE HEWINS. "SERIAL NUMBER RECOVERY TECHNIQUES ON STEEL PLATES; FRY’S REAGENT AND EDDY CURRENT TECHNOLOGY." In 32ND INTERNATIONAL SYMPOSIUM ON BALLISTICS. Destech Publications, Inc., 2022. http://dx.doi.org/10.12783/ballistics22/36042.

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The recovery of obliterated serial numbers is a common process involved in the forensic analysis of firearms confiscated in criminal cases. The current standard method of recovery involves the use of chemical reagents which are highly destructive to the material. The destructive process does not allow subsequent analysis, nor does the test always recover the serial number completely. A new technology that utilizes eddy currents and magnetic fields to recover serial numbers without the use of chemicals has been proposed to allow for an almost non-destructive recovery. This research has shown that the use of eddy currents and magnetic fields is a promising technique for obliterated serial number recovery and that further research may indicate it is a suitable replacement for the currently used Fry’s Reagent.
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Ohar, Orest P., and Todd E. Lizotte. "Extracting ballistic forensic intelligence: microstamped firearms deliver data for illegal firearm traffic mapping: technology, implementation, and applications." In SPIE Optical Engineering + Applications, edited by Fred M. Dickey and Richard A. Beyer. SPIE, 2009. http://dx.doi.org/10.1117/12.828465.

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