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Forensic Science: Analysis of Glass and Soil Evidence

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1 Forensic Science: Analysis of Glass and Soil Evidence

2 Glass evidence can be found at many crime scenes.
Automobile accident sites may be littered with broken headlight or windshield glass. The site of a store break-in may contain shards of window glass with fibers or blood on them. If shots are fired into a window, the sequence and direction of the bullets can often be determined by examining the glass. Minute particles of glass may be transferred to a suspect’s shoes or clothing and can provide a source of trace evidence linking a suspect to a crime.

3 Glass & Forensics How was it broken? Link a suspect to a crime scene
Fingerprints Blood

4 Chemical and Physical Properties
Physical properties describe a substance without comparing with another substance. They are measurements like weight, volume, boiling point, melting point. Chemical properties describe what happens when you combine it with something else in a chemical reaction. Examples are burning, coloring reagent tests, decomposing, synthesis of an alloy from individual elements

5 How is glass formed? Long before humans began making glass, glass formed naturally. When certain types of rock are exposed to extremely high temperatures, such as lightning strikes or erupting volcanoes, glass can form. Obsidian is a type of glass formed by volcanoes.

6 Timeline of Events Prehistoric humans used obsidian as a cutting tool.
The earliest man-made glass objects (glass beads) were found in Egypt dating back to 2500 BC. Glass blowing began sometime during the first century BC. By the 14th century, knowledge of glass making spread throughout Europe. The Industrial Revolution brought the mass production of many kinds of glass.

7 How is Glass Formed? Glass is a hard, brittle, amorphous material made by melting sand (aka silica,silicon dioxide, SiO2) lime (aka calcium oxide CaO) and soda, sodium carbonate (Na2CO3) at very high temperatures. The lime (CaO) is added to prevent the glass from being soluble in water. The soda (Na2CO3) is added to lower the melting point of silica (sand) and make it easier to work with. In some types of glass with special requirements, trace amounts of other elements are added. Example: Boron is added to make Pyrex glass.

8 How is Glass Made? Following the mixing of the raw materials, they are transported to the furnace and heated to over 1200oC or 2200oF and changed into a molten mixture. There are different formulas and assembly for different glass applications. Ex: car wind shields are 2 layers with plastic in between.

9 Types of Glass

10 Types of Glass – soda-lime glass
Mostly sand, sodium carbonate and calcium oxide: Used for manufacturing most window and bottle glass Making Window Panes Making Glass Bottles Rolling Glass

11 Types of Glass - Float Glass
Flat glass typically used for windows. Soda-lime glass that has been cooled on top of a bath of molten tin.

12 Types of glass - Leaded Glass
Fine glassware and decorative art glass, called crystal or leaded glass substitutes lead oxide for calcium oxide (lime). The addition of lead oxide makes the glass denser. As light passes through the more-dense glass, the light waves are bent, giving the glass a sparkling effect.

13 Types of glass - Tempered Glass
This glass is made stronger than ordinary window glass by introducing stress through rapid heating and cooling of the glass surfaces. When tempered glass breaks, it does not shatter but rather fragments or “dices” into small squares with little splintering. Used for side and rear windows of automobiles sold in the United States.

14 Types of glass - Bulletproof Glass
Bulletproof glass is a combination of two or more types of glass, one hard and one soft. The softer layer makes the glass more elastic so it can flex instead of shatter. The index of refraction for both of the glasses used in the bulletproof layers must be almost the same to keep the glass transparent and allow a clear view through the glass. Bulletproof glass varies in thickness from three-quarter inch to three inches.

15 Density of Glass Determination
To determine the density of glass, it is best to use the immersion method. Density = mass/volume Mass is measured on a balance / scale. Volume is determined by immersing parts of the glass and seeing the level change in a measurement glassware.

16 Comparing Densities: Flotation
A solid particle will either float, sink, or remain suspended in a liquid, depending upon its density relative to the liquid medium. Flotation = a standard / reference glass particle is immersed in a liquid; a mixture of bromoform or bromobenzene may be used. The composition of the liquid is carefully adjusted by adding small amounts of bromoform or bromobenzene until the glass chip remains suspended in the liquid medium. At this point, the standard / reference glass sample and the liquid each have the same density. Glass chips (same size and shape as reference sample) are added to the liquid for comparison. If both the unknown and standard / reference samples remain suspended, they have the same density.

17 Flotation A standard / reference glass particle is immersed in a liquid; a mixture of bromoform or bromobenzene may be used. The composition of the liquid is carefully adjusted by adding small amounts of bromoform or bromobenzene until the glass chip remains suspended in the liquid medium. At this point, the standard / reference glass sample and the liquid each have the same density. Glass chips (same size and shape as reference sample) are added to the liquid for comparison. If both the unknown and standard / reference samples remain suspended, they have the same density.

18 Refraction of Light Refraction of light is the bending of the light as it passes the boundary between two different optically dense mediums. It changes directions because it changes speed

19 Snell’s Law is a formula used to describe the relationship between the angles of incidence and refraction, when referring to light or other waves passing through a boundary between two different isotropic media, such as water, glass, or air.

20 Refractive Index When light changes from space to air to water, it slows down. This changes the path it takes. That’s refraction. The refractive index is the ratio of the velocity of light in space to the velocity inside a different material. Refractive index = Velocity in space Velocity in medium Think of it as the optical density of a material. The thicker it is the slower you go

21 Dispersion of Light Dispersion of light is when white light passes through a prism and is separated into the different colored wavelengths by the refraction of the prism.

22 Forensics of Broken Glass
When broken glass is found at a crime scene it is gathered and checked for several things: Puzzle pieces fitting together. Fracture pattern. Blood or any DNA source Fingerprints Composition or type of glass Density – mass per unit of volume. Determining refractive index. Any unique characteristics: ex. Paint, scratches

23 Proper Collection of Glass Evidence
Standard reference glass should be taken from the crime scene (1 in2) Package in solid containers to prevent breakage Preserve garment (shoe, pants, shirt) with glass on it All broken glass must be recovered and submitted for analysis when direction of impact is desired. Whenever possible, the exterior and interior surfaces of the glass must be indicated. The presence of dirt, paint, grease or putty may indicate the exterior surface of the glass.

24 Jigsaw Effect – Most Beneficial
When the suspect and crime-scene fragments are assembled and physically fitted together. Comparisons of this type require piecing together irregular edges of broken glass as well as matching all irregularities and striations on the broken surfaces. The possibility that two pieces of glass originating from different sources will fit together exactly is so unlikely as to exclude all other sources from practical consideration. Unfortunately, most glass evidence is either too fragmentary or too minute to permit a comparison of this type

25 Soil Analysis “Life is hard. Then you die.
Chapter 13 Soil Analysis “Life is hard. Then you die. Then they throw dirt in your face. Then the worms eat you. Be grateful it happens in that order.” —David Gerrold, American science fiction writer Kendall/Hunt

26 Soil Analysis Students will learn to:
Chapter 13 Soil Analysis Students will learn to: Identify a soil’s common constituents Determine the origin of a soil sample Why soils can be used as class evidence When soils can be used as circumstantial evidence Kendall/Hunt

27 Forensic Geology The legal application of earth and soil science
Characterization of earthen materials that have been transferred between objects or locations and the analysis of possible origin or sources

28 Soil Definition—naturally deposited materials that cover the earth’s surface and are capable of supporting plant growth The Earth 75%—oceans, seas and lakes 15%—deserts, polar ice caps and mountains 10%—suitable for agriculture

29 Soil Formation Living matter—plants, animals, microorganisms
Inorganic materials Climate Parent materials Relief—slope and land form Time

30 Soil Composition Profile Sand Topsoil Silt Subsoil Clay
Organic matter Profile Topsoil Subsoil Parent material

31 Soil Nutrients—macro Nitrogen Phosphorus Potassium Calcium Magnesium
Sulfur Nutrients—micro Manganese Iron Boron Copper Zinc Molybdenum Chlorine

32 Soil Comparisons May establish a relationship or link to the crime, the victim, or the suspect(s) Physical properties—density, magnetism, particle size, mineralogy Chemical properties—pH, trace elements

33 Probative Value of Soil
Types of earth material are virtually unlimited. They have a wide distribution and change over short distances. As a result, the statistical probability of a given sample having properties the same as another is very small Evidential value of soil can be excellent

34 Increasing Probative Value
Rare or unusual minerals Rocks Fossils Manufactured particles

35 Minerals More than 2000 have been identified
Twenty or so are commonly found in soils; most soil samples contain only 3 to 5 Characteristics for identification—size, density, color, luster, fracture, streak, or magnetism

36 Rocks Aggregates of minerals Types Formation Natural—like granite
Man-made—like concrete Formation Igneous Sedimentary Metamorphic

37 Palynology The study of pollen and spores Important to know:
What is produced in a given area The dispersal pattern Variation in size and weight

38 EQ: How is soil analyzed in forensic science?

39 Forensic Definition of Soil
Any disintegrated surface material, natural or artificial that lies on or near the Earth’s surface. Natural= rocks, minerals, vegetation, animal matter Manufactured= glass, paint, asphalt, brick fragments, cinders

40 Soil The value of soil as evidence rests with its prevalence at crime scenes and its transferability between the scene and the criminal. Most soils can be differentiated by their appearance and color. The first step in exam- ination of soil is a side-by- side examination of color and texture.

41                                                                                                                                                                                       

42 Soil Types-Texture People describe soil types in all kinds of ways such as heavy, light, sandy, clay, loam, poor or good. Soil scientists describe soil types by how much sand, silt and clay are present. This is called texture.

43 What is the first step in the examination of soil?
Side-by-side comparison of color and texture

44 Comparison Microscope
Soil appears different when wet, therefore samples are dried in the same manner in the lab 1,100 distinguishable soil colors Low power magnification offers presence of plant and animal debris High magnification can classify minerals and rocks

45 Mineral Naturally occurring crystalline solid
UNIQUE COLOR GEOMETRIC SHAPE DENSITY REFRACTIVE INDEX 2200 exist, but only 20 are common and found readily at the surface surface

46 Rocks Made of a combination of minerals
Characterized by their mineral content and grain size

47 Mineral Analysis Rocks and minerals are used to manufacture a wide variety of industrial and commercial products; safe insulation, brick, plaster and concrete blocks for example.

48 Which magnification allows you to see naturally occuring crystalline solids?
High Magnification

49 Density Gradient Tubes
These tubes are typically filled with layers of liquids that have different density values. When soil is added to the density-gradient tube, its particles will sink to the portion of the tube that has a density of equal value.

50 What is the main issue with the use of Density Gradient tubes?
Many soils from different areas yield similar densities What is the main issue with the use of Density Gradient tubes?

51 Variations in Soil Crime Scene
Ultimate value depends on its variation at the crime scene If the soil is indistinguishable for miles surrounding the crime scene, it will have limited value in associating soil found on the suspect with that particular site. Variations in soil composition must be made every yards from the crime site.

52 Collection of Soil Standard/reference soils are to be collected at various intervals within a 100-yard radius of the crime scene, as well as the site of the crime, for comparison to the questioned soil. Soil found on the suspect, such as adhering to a shoe or garments, must not be removed. Instead, each object should be individually wrapped in paper, and stored in either plastic jars or ziplock plastic bags and transmitted to the laboratory.

53 Collection Soil must be collected at all alibi locations that the suspect claims For Standard/ Reference samples: In most cases, only a tablespoon or two of the top layer of soil is collected, placed in individual plastic containers, and labeled according to location.

54 Where are all the locations soil should be collected?
Crime scene, 100 yds radius of crime scene, alibi locations, any object or clothing of interest that contains soil

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