Forensic Science: Fundamentals & Investigations, Chapter 17 1

Chapter 17 Ballistics By the end of this chapter you will be able to:

describe rifling on a gun barrel and explain how it marks a bullet

explain barrel size and caliber describe how bullets are test fired and matched discuss the role of ballistics recovery and

examination at a crime scene determine the position of the shooter based on bullet

trajectory

All Rights Reserved South-Western / Cengage Learning © 2009

Forensic Science: Fundamentals & Investigations, Chapter 17 2

Introduction Introduction

Ballistic evidence helps explain: What type of firearm was used. The caliber of the bullet. The number of bullets fired. Where the shooter was. Whether a weapon was fired recently. If a firearm was used in previous crimes.

Forensic Science: Fundamentals & Investigations, Chapter 17 3

History of History of Gunpowder and Firearms Gunpowder and Firearms

The Chinese invented gunpowder over a thousand years ago.

Muzzle-loading matchlocks used wicks to ignite the gunpowder.

The cartridge and breech loading followed. Rifling provided greater accuracy. Revolver, semi-automatic, and automatic

handguns were developed.

Forensic Science: Fundamentals & Investigations, Chapter 17 4

Firearms and Rifling Firearms and Rifling

Grooves and ridges (lands) in the barrel of a gun produce the twisting that adds accuracy.

This leaves a individualized pattern on the bullet.

Forensic Science: Fundamentals & Investigations, Chapter 17 5

Bullets, Cartridges, and Calibers Bullets, Cartridges, and Calibers

Bullets and cartridges are packaged together.

The bullet, usually of metal, is out front with the cartridge, holding the primer and propellant powders, behind.

Forensic Science: Fundamentals & Investigations, Chapter 17 6

How a Firearm Works

1. The firing pin hits the base of the cartridge, igniting the primer powder.

2. The primer powder sparks through the flash hole to the main propellant supply.

3. The pressure of the explosion pushes the bullet from the casing into the barrel.

4. The bullet follows the lands and grooves spiraling out of the barrel.

Forensic Science: Fundamentals & Investigations, Chapter 17 7

Caliber of the Cartridge

Caliber is a measure the diameter of the cartridge.

These usually are hundredths of an inch. Common calibers include .22, .25, .357, .38,

.44, and .45. Why should the caliber of ammunition

match the firearm that shoots it? If they do not match, what could go wrong?

Forensic Science: Fundamentals & Investigations, Chapter 17 8

The Study of Bullets and The Study of Bullets and Cartridge Casings Cartridge Casings

1. How is each fired bullet marked?

2. What is the procedure to match a spent bullet to the firearm that shot it?

3. What makes up a test-firing, and why is it done?

Matching grooves (indentations)

Matching lands (elevations)

Forensic Science: Fundamentals & Investigations, Chapter 17 9

Marks on the Spent Cartridge Casings

Firing pin marks on a spent cartridge can be used to match it to a firearm.

The fire pin marks can appear on the rim or on the center of the spent cartridge.

Breechblock marks are produced as the cartridge casing slams backward and strikes the breechblock.

Other marks left on spent cartridge casings include minute scratch extractor and ejector nicks.

Forensic Science: Fundamentals & Investigations, Chapter 17 10

Gunshot Residues Gunshot Residues

Particles of unburned powder and traces of smoke are the residues of gunshots.

They can leave a trace on the hand, arm, face, hair, or clothing of the shooter.

They can also leave a trace on the victim. Chemical testing often can detect residue even if

removal is attempted. The distance from the victim to the shooter can be

determined by examination of the residue pattern on the victim.

Forensic Science: Fundamentals & Investigations, Chapter 17 11

Trajectory Trajectory

Two reference points are needed to define the trajectory.

Investigators can figure the shooter discharged the firearm somewhere along that line.

Path of bullet

Horizon

Wind shield

Distance along path of bullet to window, 23.9”

Distance along horizon to window, 23.5”

yx

60 feet

Forensic Science: Fundamentals & Investigations, Chapter 17 12

Trajectory Trajectory

Reference points can be bullet holes in objects or victims.

An entry point and exit point on a victim can be used.

Gunshot residue or spent cartridge casings can be less specific reference points.

Investigators can use lasers to trace a straight-line path to help determine the position of the shooter.

Forensic Science: Fundamentals & Investigations, Chapter 17 13

Trajectory Trajectory

Determining the Location of the Shooter Using the illustration on Slide 11 and adding that the shot came from a nearby building, these conclusions can be made:

1. Since the building is about 60 feet away, the shooter was about 11 feet above the bullet hole in the seat, which was 4 feet above the ground.

2. This height of about 15 feet off the ground puts the shooter on the second floor in that building.

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Bullet Wounds Bullet Wounds

1. Why do entrance wounds tend to be smaller than exit wounds?

2. If the bullet penetrates clothing, what can fibers embedded in the wound indicate?

3. Where is gunshot residue usually found?

4. If the gun is fired with the muzzle touching the victim’s skin, what telltale mark may show up?

5. Will larger or will smaller caliber bullets tend to lodge within the body rather than passing through? Why?

Forensic Science: Fundamentals & Investigations, Chapter 17 15

. . . . . . . . . . . . . . . . . Summary. . . . . . . . . . . . . . . . . Summary

Fired bullets show patterns of lands and grooves that match the rifling in the barrel.

The caliber of a cartridge usually is a measure of its diameter.

Investigators also check for firing pin, breechblock, extractor, and ejector marks.

Gunshot residue can help recreate a crime. It’s important to locate where the shooter was

located.