Forensic Science

ask questions and define problems based on observations or information from text, phenomena, models, or investigations;FOSCI.1A

apply scientific practices to plan and conduct descriptive, comparative, and experimental investigations and use engineering practices to design solutions to problems;FOSCI.1B

use appropriate safety equipment and practices during laboratory, classroom, and field investigations as outlined in Texas Education Agency-approved safety standards;FOSCI.1C

use appropriate tools and equipment such as scientific calculators, computers, internet access, digital cameras, video recording devices, meter sticks, metric rulers, measuring tapes, digital range finders, protractors, calipers, light microscopes up to 100x magnification, hand lenses, stereoscopes, digital scales, dissection equipment, standard laboratory glassware, appropriate personal protective equipment (PPE), an adequate supply of consumable chemicals, biological specimens, prepared evidence slides and samples, evidence packaging and tamper evident tape, evidence tents, crime scene tape, L-rulers, American Board of Forensic Odontology (ABFO) scales, alternate light sources (ALS) and ALS protective goggles, blood specimens, blood presumptive tests, glass samples of various chemical composition, human and non-human bones, fingerprint brushes and powders, lifting tapes and cards, ten-print cards and ink pads, swabs with containers, disposable gloves, and relevant and necessary kits;FOSCI.1D

collect quantitative data with accuracy and precision using the International System of Units (SI) and United States customary units and qualitative data as evidence;FOSCI.1E

organize quantitative and qualitative data using appropriate methods of communication such as reports, graphs, tables, or charts;FOSCI.1F

develop and use models to represent phenomena, systems, processes, or solutions to engineering problems; andFOSCI.1G

distinguish between scientific hypotheses, theories, and laws.FOSCI.1H

identify advantages and limitations of models such as their size, scale, properties, and materials;FOSCI.2A

analyze data by identifying significant statistical features, patterns, sources of error, and limitations;FOSCI.2B

use mathematical calculations to assess quantitative relationships in data; andFOSCI.2C

evaluate experimental and engineering designs.FOSCI.2D

develop explanations and propose solutions supported by data and models and consistent with scientific ideas, principles, and theories;FOSCI.3A

communicate explanations and solutions individually and collaboratively in a variety of settings and formats; andFOSCI.3B

engage respectfully in scientific argumentation using applied scientific explanations and empirical evidence.FOSCI.3C

analyze, evaluate, and critique scientific explanations and solutions by using empirical evidence, logical reasoning, and experimental and observational testing so as to encourage critical thinking by the student;FOSCI.4A

relate the impact of past and current research on scientific thought and society, including research methodology, cost-benefit analysis, and contributions of diverse scientists and engineers as related to the content; andFOSCI.4B

research and explore resources such as museums, libraries, professional organizations, private companies, online platforms, and mentors employed in a science, technology, engineering, and mathematics (STEM) field.FOSCI.4C

analyze the historical development and current advancements of different forensic science disciplines such as forensic biology, anthropology/odontology, forensic chemistry, trace evidence, ballistics, fingerprints, digital forensics, and questioned documents; andFOSCI.5A

explain significant historical and modern contributions to the development and advancement of forensic science made by contributors such as Edmond Locard, Mathieu Orfila, Francis Galton, Edwin Henry, and Alec Jeffreys.FOSCI.5B

summarize the ethical standards required of a forensic science professional;FOSCI.6A

identify and explain knowledge of terminology and procedures employed in the criminal justice system as they pertain to the chain of custody procedure for evidence;FOSCI.6B

 identify and explain knowledge of terminology and procedures employed in the criminal justice system as they pertain to expert witness testimony;FOSCI.6C

research and discuss the effect of biases such as confirmation bias and framing cognitive bias on evidence collection, forensic analysis, and expert testimony; andFOSCI.6D

compare the admissibility of expert witness testimony in terms of the Frye Standard and the Daubert Standard under federal rules of evidence.FOSCI.6E

explore and describe discipline-specific requirements for careers in forensic science, including collegiate course requirements, licensure, certifications, and physical and mental capabilities;FOSCI.7A

differentiate the roles and responsibilities of professionals in the criminal justice system, including forensic scientists, crime scene investigators, criminologists, court systems personnel, and medicolegal death investigations; andFOSCI.7B

differentiate the functions of various forensic science disciplines such as forensic biology, forensic chemistry, trace evidence, ballistics, fingerprints, digital forensics, and questioned documents.FOSCI.7C

explain the roles and tasks needed to complete a crime scene examination, which may require collaboration with outside experts and agencies, and demonstrate the ability to work as a member of a crime scene team;FOSCI.8A

develop a detailed, technical written record based on observations and activities, documenting the crime scene examination;FOSCI.8B

discuss the elements of criminal law that guide search and seizure of persons, property, and evidence;FOSCI.8C

conduct a primary and secondary systematic search of a simulated crime scene for physical evidence utilizing search patterns such as spiral, line, grid, and zone;FOSCI.8D

document a crime scene using photographic or audiovisual equipment;FOSCI.8E

generate a physical or digital crime scene sketch, including coordinates or measurements from fixed points, compass directions, scale of proportion, legend-key, heading, and title block; andFOSCI.8F

demonstrate proper techniques for collecting, packaging, and preserving physical evidence found at a crime scene while maintaining documentation, including chain of custody.FOSCI.8G

compare the three major fingerprint patterns of arches, loops, and whorls;FOSCI.9A

identify the minutiae of fingerprints, including bifurcations, ending ridges, dots, short ridges, and enclosures/islands;FOSCI.9B

distinguish between patent, plastic, and latent impressions;FOSCI.9C

perform procedures for developing and lifting latent prints on nonporous surfaces using cyanoacrylate and fingerprint powders;FOSCI.9D

perform procedures for developing latent prints using chemical processes on porous and adhesive surfaces with chemicals such as ninhydrin and crystal violet and documenting the results via photography; andFOSCI.9E

explain the Integrated Automated Fingerprint Identification System (IAFIS) and describe the implications of Next Generation Identification (NGI) systems.FOSCI.9F

analyze the class and individual characteristics of tool mark impressions and the recovery and documentation of surface characteristics such as wood or metal;FOSCI.10A

analyze the class and individual characteristics of footwear impressions and the recovery and documentation of surface characteristics such as soil or organic plant material;FOSCI.10B

analyze the class and individual characteristics of tire tread impressions and the recovery documentation of surface characteristics such as soil or organic plant material; andFOSCI.10C

compare impression evidence collected at a simulated crime scene with the known impression.FOSCI.10D

demonstrate how to collect hair and fiber evidence at a simulated crime scene;FOSCI.11A

perform the analysis of hair and fiber evidence using forensic science methods such as microscopy and flame testing;FOSCI.11B

compare the microscopic characteristics of human hair and non-human hair, including medulla, pigment distribution, and scales;FOSCI.11C

describe and illustrate the different microscopic characteristics used to determine the origin of a human hair sample; andFOSCI.11D

differentiate between natural and synthetic fibers.FOSCI.11E

demonstrate how to collect and preserve glass evidence;FOSCI.12A

compare the composition of various types of glass such as soda lime, borosilicate, leaded, and tempered;FOSCI.12B

determine the direction of a projectile by examining glass fractures; andFOSCI.12C

define refractive index and explain how it is used in forensic glass analysis.FOSCI.12D

research and explain different types of examinations performed on digital and physical evidence in a forensic laboratory such as digital data recovery, counterfeiting, ink, and paper analysis;FOSCI.13A

investigate and describe the security features incorporated in U.S. and foreign currency to prevent counterfeiting; andFOSCI.13B

perform handwriting comparisons of an unknown sample with exemplars by analyzing characteristics such as letter, line, and formatting.FOSCI.13C

describe the mechanism of modern firearms such as long guns and handguns;FOSCI.14A

identify the components and characteristics of bullet and cartridge cases;FOSCI.14B

describe the composition of and method of analysis for gunshot residue and primer residue;FOSCI.14C

conduct and calculate trajectory analysis of bullet strikes within a simulated crime scene; andFOSCI.14D

identify and recognize the type of information available through the National Integrated Ballistics Information Network.FOSCI.14E

differentiate between toxicological analysis and controlled substance analysis as they relate to the method of collection and impact on the body;FOSCI.15A

classify controlled substances using the schedules under the Controlled Substances Act; andFOSCI.15B

identify unknown substances using presumptive and confirmatory procedures such as microchemical/color indicating reagent field tests, microscopy, chromatography, and spectrophotometry.FOSCI.15C

explain the absorption, distribution, metabolization, and elimination of toxins such as alcohol, prescription drugs, controlled substances, and carbon monoxide through the human body;FOSCI.16A

describe presumptive and confirmatory laboratory procedures as they relate to toxicological analysis such as head space analysis, solid-phase extractions, gas chromatography-mass spectrometry (GC/MS), color tests, and immunoassays;FOSCI.16B

interpret results from presumptive and confirmatory laboratory procedures, including GC/MS and their implications; andFOSCI.16C

explain the precautions necessary in the forensic laboratory for proper preservation of biological samples.FOSCI.16D

analyze blood stain patterns based on surface type and appearance such as size, shape, distribution and location in order to determine the mechanism by which the patterns are created;FOSCI.17A

explain the methods of chemically enhancing latent blood patterns using reagents such as Blue Star or Amido Black; andFOSCI.17B

conduct and interpret blood presumptive tests for various biologicals such as phenolphthalein and tetramethylbenzidine (TMB).FOSCI.17C

identify different types of biological samples and practice proper collection and preservation techniques;FOSCI.18A

identify the red blood cell antigens and antibodies as they relate to human blood types;FOSCI.18B

describe the structure of a deoxyribonucleic acid (DNA) molecule and its function;FOSCI.18C

explain the analytical procedure for generating a DNA profile, including extraction, quantification, amplification, and capillary electrophoresis;FOSCI.18D

explain the different methodologies surrounding the different types of DNA analysis such as short tandem repeats (STRs), Y-STRs, mitochondrial DNA, and single nucleotide polymorphisms (SNPs);FOSCI.18E

interpret the components of an electropherogram; andFOSCI.18F

explore the databasing systems associated with DNA such as Combined DNA Index System (CODIS) and ancestry-based databasing systems.FOSCI.18G

explain the principles of rigor, algor, and livor mortis and how they apply to deceased persons;FOSCI.19A

differentiate between the types of wound patterns such as lacerations and blunt force trauma resulting from stabbings, bludgeoning, gunshots, and strangulations;FOSCI.19B

determine cause and manner of death from an autopsy report obtained through resources such as case studies, simulated autopsies, and dissections; andFOSCI.19C

determine the approximate time of death using entomology.FOSCI.19D

identify the major bones of the human skeletal system;FOSCI.20A

compare composition and structure of human and non-human bones;FOSCI.20B

describe the collection and preservation methods for bone evidence;FOSCI.20C

explain the characteristics of the human skeletal system indicative of specific biological sex and approximate range of age and height; andFOSCI.20D

explain how human remains are identified through dental records such as dentures, xrays, and implantsFOSCI.20E