1. Chapter 4 Arson and Fire Investigation
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2. Introduction—Objectives
Define combustion reactions.
Discuss the four factors that are required to ignite and maintain a fi re.
Explain the conditions in which fuels will burn.
Examine reasons why arson is difficult to detect.
Identify the four categories of fire.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

3. Introduction—Objectives
Evaluate the significance of burn patterns discovered at an arson investigation.
Discuss the proper methods for detecting, collecting, preserving, and analyzing arson evidence.
Describe the psychological profile of an arsonist.
Examine the various motives for arson.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

4. Introduction—Vocabulary
accelerant - in fire investigation, any material used to start or sustain a fire; the most common are combustible liquids
arson - the intentional and illegal burning of property
combustion reaction – oxidation reaction that involves oxygen and that releases heat and light
exothermic reaction – chemical reaction that releases heat
heat of combustion - excess heat that is given off in a combustion reaction
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

5. Introduction—Vocabulary
hydrocarbon - any compound consisting only of hydrogen and carbon
oxidation reaction - the complete or partial loss of electrons or gain of oxygen
pyrolysis - decomposition of organic matter by heat in the absence of oxygen
substrate control - a similar, but uncontaminated, sample; used for making comparisons
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

6. Happy Land Fire
Julio Gonzalez and Lydia Feliciano dated off and on for six years.
When Lydia ended the relationship, Julio set fire to the Happy Land Club in the Bronx.
87 people were trapped and died.
Julio purchased the accelerant at a local station.
Julio’s home and shoes smelled of gasoline. 6
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

7. Chemistry of Fire (Obj 4.1, 4.2, 4.3)
Fire — a rapid oxidation reaction that involves a combustible material
Oxidation — the complete or partial loss of electrons or the gain of oxygen
2NA + Cl2  2NaCl
Forensic Science II: Arson and Fire Investigation, Chapter 4
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8. Combustion
Combustion reactions — oxidation reactions that involve oxygen and produce flames
Heat of combustion — excess heat energy
Exothermic reactions — chemical reactions that release heat
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

9. The Fire Tetrahedron
Four ingredients are required to start a fire and keep it burning
Oxygen
Fuel
Heat
Chain reaction
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

10. Flash Point & Ignition Temperature
Most accelerants are hydrocarbons in a gas state
Hydrocarbons are compounds that are made of only hydrogen and carbon atoms — gasoline, kerosene, lighter fluid
In a gas state, molecular bonding is weaker
Vaporization — liquid changes to gas
Flash point — lowest temperature at which vaporization occurs
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

11. Flash Point & Ignition Temperature
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

12. Pyrolysis
pyrolysis - decomposition of organic matter by heat in the absence of oxygen
The vapors given off from the resins in wood are flammable and will burn.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

13. Arson is Difficult to Prove
The crime is usually carefully planned.
The arsonist leaves the scene before anyone notices a fire.
The fire destroys evidence.
Extinguishing the fire also destroys evidence.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

14. Function of a Fire Investigator
Investigation must begin quickly, before evidence is lost
Find the fire’s point of origin
Examine possible causes
Accidental
Arson
Classify the fire
Forensic Science II: Arson and Fire Investigation, Chapter 4
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15. Function of a Fire Investigator
Forensic Science II: Arson and Fire Investigation, Chapter 4
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16. Determining Cause
Forensic Science II: Arson and Fire Investigation, Chapter 4
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17. Determining Cause
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

18. Collecting the Evidence
Begin immediately; no warrant required
Collect 3-4 liters of ash from point of origin and other suspected areas
Use portable vapor detectors, or sniffers
Use trained dogs to sniff
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

19. Collecting the Control
Place each sample in its own container
Collect a substrate control — a debris sample that has not been contaminated by the accelerant
Comparisons to the substrate control may help prove an accelerant was used
Some products may look like accelerants when burned
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

20. Packaging the Debris
Use airtight containers such as a new clean paint can and lid
Leave head space at the top of the can
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

21. Finding the Igniter Matches — often burns in the fire
Cigarette lighters — often removed by arsonist
Molotov cocktail — may leave glass fragments
Faulty electrical wiring — an arc causes a predictable pattern
Knowing the igniter helps form the criminal profile
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

22. Lab Analysis
Heat the debris container to collect vapors in the head space
Direct headspace extraction procedure
Remove vapors with a syringe
Analyze vapors with gas chromatography
Passive headspace extraction procedure
Suspend a charcoal-coated strip inside the can
Replace lid
Heat container 4-16 hours at 50-80oC
Charcoal absorbs the vapor
Forensic Science II: Arson and Fire Investigation, Chapter 4
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23. Lab Analysis Passive headspace extraction procedure
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

24. Psychology of an Arsonist
Sense of power
An emotional high
No typical arsonist; possible characteristics:
Less than 25 y.o.
Father not in the home
Domineering mother
Academically challenged
Emotionally and/or psychologically disabled
Unmarried
Living with parents
Inadequacy, insecurity
Fascination with fire
Alcoholism
Parental neglect or abuse
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

25. Motives for Arson Financial gain — insurance fraud Revenge, spite
Excitement
Vanity, hero syndrome
Crime concealment — destroy evidence
Vandalism
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

26. Chapter Summary
Fire is an oxidation reaction that involves a combustible material. Not all oxidation reactions produce fire.
The fire tetrahedron represents the four requirements for sustained fire—oxygen, fuel, heat, and a chain reaction.
Most fuels are hydrocarbons and typically have very high ignition temperatures.
The ignition temperature is when a fuel will light and continue to burn even if the heat source is removed.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

27. Chapter Summary
The initial focus is to find the fire’s point of origin
The burn pattern helps determine whether the fire was natural, accidental, or deliberate.
Ash and debris are collected from the point of origin and any other suspected area.
Each sample of debris is placed in a separate airtight container.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

28. Chapter Summary
For comparison purposes, investigators also collect a substrate control.
Two methods of collecting accelerant vapors for analysis are:
direct headspace extraction procedure and
vapor concentration.
Gas chromatography is used to analyze the accelerant residue — comparing the lab chromatogram with one of known hydrocarbons.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved

29. Chapter Summary
Arsonists tend to exhibit a set of characteristics that helps investigators focus their search.
Most of the motives fit into six broad categories — financial gain, revenge, excitement, vanity, crime concealment, and vandalism.
Forensic Science II: Arson and Fire Investigation, Chapter 4
© 2012 Cengage Learning. All Rights Reserved