FORS311: Forensic Chemistry and Toxicology PDF

Summary

This document provides an overview of forensic chemistry and toxicology. It explains the basic concepts, theoretical framework, and roles of forensic chemists in a crime investigation. It also provides some working rules within the procedure followed by forensic chemists. The document does not contain any questions but instead, focuses more on the general subject matter that forensic chemists need to be familiar with in their practices.

Full Transcript

FORS311: Forensic Chemistry and Toxicology

Forensic science applies science
principles, techniques, and methods to the
investigation of crime. At first, this definition of
forensic may seem to have no connection with
the more popular crime-solving description—
but it does. The legal truth is sought through the
use of the adversarial system (rather than the
scientific method), and decisions are made only
after each side has been given an equal
opportunity to argue all the issues at hand.
To analyze physical evidence, forensic
chemistry draws on chemistry principles and
concepts. Investigating the physical and
chemical properties of a substance is central to
forensic chemistry. Without an appreciation for
these properties and the scientific method,
forensic chemistry would not be possible.

Basic Concept of Forensic Chemistry

Questioned sample - the sample being
analyzed having an unknown identity
Known sample - the sample having a
known identity and origin
Evidence – available body of facts or
information indicating whether the belief
or proposition is true or valid.
Scientific method – the principles and
procedures for the systematic pursuit of
knowledge.
 FORS311: Forensic Chemistry and Toxicology
Theories of Forensic Chemistry

The chemist follows a specific process, based on the
scientific method, for analyzing evidence. Samples
collected from a crime scene and brought to the lab for
analysis are called questioned samples because the
identities and origins of those samples are unknown. In
order to draw conclusions about the identity or origins of
questioned samples, the forensic chemist will need known
samples as a reference. A known sample might be
collected as part of the evidence—for instance a hair
sample collected from a suspect

Forensic analyses may perform to (1) identify a
questioned sample or (2) compare a questioned sample to
a known sample for the purpose of determining the source
or origin of the sample (where it came from).

ROLES OF FORENSIC CHEMIST

Most forensic scientists analyze evidence in a crime laboratory and spend little time at the
crime scene. The duties of forensic scientists are not exactly as they are portrayed on many
popular television shows, where the crime scene investigator plays the role of Sherlock Holmes
and does everything from collecting the evidence to solving the crime. In real life a team of experts
does the job of television’s crime scene investigators. The forensic scientists do not directly solve
crimes; they simply analyze the physical evidence.

Forensic chemists analyze non-biological trace evidence found at crime scenes in order to
identify unknown materials and match samples to known substances. They also analyze
drugs/controlled substances taken from scenes and people in order to identify and sometimes
quantify these materials.

They must follow strict procedures regarding the handling and documentation of evidence,
as well as scientific protocols to ensure the quality and reliability of tests and equipment.
 FORS311: Forensic Chemistry and Toxicology

The pressure from law enforcement personnel to speed results can be intense, so the
forensic chemist must be able to prioritize well and work efficiently while ensuring that the
results are accurate.

Testifying in court requires strong communication skills, including the ability to remain calm in
the face of cross-examination and explain complex scientific procedures in a manner juries can
understand.

RULES IN THE PRACTICE OF FORENSIC CHEMISTRY

The six golden rules in the practice of forensic chemistry are;

1. Go slowly - good work cannot be hurried, therefore take all the time necessary to make the
case complete, no matter how urgent it may appear or how pressing others may be for the
result; it is generally possible to adjourn a case if the work cannot be finished in time.

2. Be thorough - Make a careful and minute examination of everything and do not be satisfied
with a qualitative analysis if a quantitative one be possible; it always pays to do too much rather
than too little and it is difficult to foresee what will or will not be required in Court.

3. Take notes - Keep a full, neat and clear record of everything seen and done.

4. Consult others - Many cases will lead the expert into paths with which he is not familiar, and
when this happens, he should consult those who are most likely to know.

5. Use imagination - This is somewhat hazardous advice, since an expert with a vivid and
uncontrolled imagination is a most dangerous person; a disciplined imagination, however, which
enables inferences and deductions (to be verified or discarded at a later stage) to be made from
slender and incomplete premises is often very useful. In writing the report, the imagination must
be kept well in hand. The expert should remember that what to him maybe merely a helpful
working hypothesis is liable to be taken by others for more than its actual worth and adopted by
them as a final explanation.

6. Avoid complicated theories - The simplest explanation is the most likely to be the right one.