Prev. Article Next Article Table of Contents

Article

Who Set the Fire? Determination of Arson Accelerants by GC-MS in an Instrumental Methods Course

Your current credentials do not allow retrieval of the full text.

Purchase the full-text

PDF/HTML,
figures/images,
references and tables,
(where available)

David A. Sodeman and Sheri J. Lillard

Department of Chemistry, University of California at Riverside, Riverside, CA 92521

J. Chem. Educ., 2001, 78 (9), p 1228

DOI: 10.1021/ed078p1228

Publication Date (Web): September 1, 2001

Section:

History, Education, and Documentation

Abstract

Forensic scenarios have advantages over traditional experiments in the instrumental laboratory from the perspectives of both teaching and learning. First, students feel that they are calculating more than just a number from their experiments and that their results have meaning. Second, we are teaching techniques that are used in the real world and students can no longer complain, "This is not how it is done in the real world." This experiment is designed for upper-division chemistry and chemical engineering majors taking an instrumental methods course. The experimental approach simulates the steps an arson investigator would take to determine if arson was the cause of a fire. Charred (unknown) samples of wood and five standards of liquid accelerants are prepared in sealed containers and presented to the students for headspace gas chromatography (GC) with quadrupole mass spectrometric (MS) detection. Students interpret the standards and the charred samples using chromatographic retention times and MS data. From this information, they determine which accelerant was used to start the fire. They are also asked to discuss differences between the chromatograms of the charred sample and the corresponding liquid accelerant.

Keywords (Audience):

Upper-Division Undergraduate

Keywords (Domain):

Laboratory Instruction

Keywords (Pedagogy):

Hands-On Learning / Manipulatives

Keywords (Subject):

Chromatography

View: Hi-Res PDF | PDF w/ Links

Citing Articles

View all 8 citing articles

Citation data is made available by participants in CrossRef's Cited-by Linking service. For a more comprehensive list of citations to this article, users are encouraged to perform a search in SciFinder.

This article has been cited by 8 ACS Journal articles (5 most recent appear below).

Analysis of a Suspected Drug Sample
Eric J. Schurter, Lois Anne Zook-Gerdau, and Paul Szalay
Journal of Chemical Education2011 Article ASAP
- Analysis of a Suspected Drug Sample
  Eric J. Schurter, Lois Anne Zook-Gerdau, and Paul Szalay
  Journal of Chemical Education2011 Article ASAP
  This general chemistry laboratory uses differences in solubility to separate a mixture of caffeine and aspirin while introducing the instrumental analysis methods of GCMS and FTIR. The drug mixture is separated by partitioning aspirin and caffeine between ...
  Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
An Advanced Analytical Chemistry Experiment Using Gas Chromatography−Mass Spectrometry, MATLAB, and Chemometrics To Predict Biodiesel Blend Percent Composition
Karisa M. Pierce, Stephen P. Schale, Trang M. Le, and Joel C. Larson
Journal of Chemical Education2011 88 (6), 806-810
- An Advanced Analytical Chemistry Experiment Using Gas Chromatography−Mass Spectrometry, MATLAB, and Chemometrics To Predict Biodiesel Blend Percent Composition
  Karisa M. Pierce, Stephen P. Schale, Trang M. Le, and Joel C. Larson
  Journal of Chemical Education2011 88 (6), 806-810
  We present a laboratory experiment for an advanced analytical chemistry course where we first focus on the chemometric technique partial least-squares (PLS) analysis applied to one-dimensional (1D) total-ion-current gas chromatography−mass spectrometry (...
  Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
Inquiry-Based Arson Investigation for General Chemistry Using GC−MS
Marta K. Maurer, Michael R. Bukowski, Mary D. Menachery and Adam R. Zatorsky
Journal of Chemical Education2010 87 (3), 311-313
- Inquiry-Based Arson Investigation for General Chemistry Using GC−MS
  Marta K. Maurer, Michael R. Bukowski, Mary D. Menachery and Adam R. Zatorsky
  Journal of Chemical Education2010 87 (3), 311-313
  We have developed a two-week guided-inquiry laboratory in which first-semester general chemistry students investigate a suspected arson using gas chromatography−mass spectrometry and paper chromatography. In the process of evaluating evidence from the ...
  Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
An Economical Method for Static Headspace Enrichment for Arson Analysis
Bjorn Olesen
Journal of Chemical Education2010 87 (3), 314-315
- An Economical Method for Static Headspace Enrichment for Arson Analysis
  Bjorn Olesen
  Journal of Chemical Education2010 87 (3), 314-315
  Static headspace analysis of accelerants from suspected arsons is accomplished by placing an arson sample in a sealed container with a carbon strip suspended above the sample. The sample is heated, cooled to room temperature, and then the organic ...
  Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
Got a Match? Ion Extraction GC–MS Characterization of Accelerants Adsorbed in Charcoal Using Negative Pressure Dynamic Headspace Concentration
Adam B. Hall , John E. Drugan , Barbara Anzivino and Leon J. Tilley , Laura R. Ingalls
Journal of Chemical Education2009 86 (1), 55
- Got a Match? Ion Extraction GC–MS Characterization of Accelerants Adsorbed in Charcoal Using Negative Pressure Dynamic Headspace Concentration
  Adam B. Hall , John E. Drugan , Barbara Anzivino and Leon J. Tilley , Laura R. Ingalls
  Journal of Chemical Education2009 86 (1), 55
  An undergraduate organic chemistry experiment demonstrating real-life application of GC–MS to arson accelerant identification is described. Students are given the task of comparing a sample recovered from a “crime scene” to that from a “suspect’s clothing”...
  Abstract | Hi-Res PDF | PDF w/ Links