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Mrs. Svedstrup Glass and Soil Chapter 19 1. An amorphous solid In pure form is made up of silicon and oxygen molecules (SiO 2 ) n No ordered structure.

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Presentation on theme: "Mrs. Svedstrup Glass and Soil Chapter 19 1. An amorphous solid In pure form is made up of silicon and oxygen molecules (SiO 2 ) n No ordered structure."— Presentation transcript:

1 Mrs. Svedstrup Glass and Soil Chapter 19 1

2 An amorphous solid In pure form is made up of silicon and oxygen molecules (SiO 2 ) n No ordered structure and no crystal habit High melting point - over 2000 0 C Hard & brittle like a solid No regular order to chemical bonds like a liquid Glass 2

3 Float glass or soda lime glass- windows, picture frames, flat glass objects SiO 2 with sodium carbonate (Na 2 CO 3 and calcium oxide CaO) Tempered glass- safety glass, auto glass, shower doors and plate glass windows in store Same chemical makeup as soda lime glass, but top layer is cooled first causing internal stresses. When broken this glass fractures into small blunt pieces. Types of Glass 3

4 Borosilicate glass- lab glassware, kitchen items (Pyrex) SiO 2 with Boron Tinted glass- has colorants that reduce glare / heat penetration or for decorative use SiO 2 with additives/colorants Leaded glass (crystal)- wine glasses, fine dining, figurines SiO 2 with lead oxide Types of Glass 4

5 Glass is forensically important It is found at most crime scenes It can be carried away from scene undetected It is stable, does not decay As class evidence contributes to the pool of evidence Important to collect proper known samples so incidental glass can be eliminated Glass as Forensic Evidence 5

6 Glass generally class evidence, except when a fracture match is found, which is considered to be an individual characteristic Microscopic characteristics can assist in making decision about suspected match Random stress patterns and breaks are unique Fracture Match 6 The vertical white lines are stress marks in two eyeglass lenses. Notice how the stress marks align, an individual characteristic. Reassembled Molotov Cocktail

7 Broken glass analysis is forensically important to the reconstruction of events in a criminal act Analysis can include: The sequence of the fractures – order of events The direction of the force which caused the fracture – did the break occur from the inside or outside The identity (type) of a small piece of glass – soda lime glass, borosilicate, tempered, or lead crystal Analyzing Broken Glass 7

8 Fracture lines: Radial and Concentric Radial fracture lines occur first extending outward from the break point, produced when the opposite side of impact fails first Concentric fracture lines form a circle about the break point and are produced by the side of impact failing first Sequencing Fractures 8 AB Radial Fractures Concentric Fractures

9 Radial lines always end in existing radial lines Order in photo: A->B->C Sequencing Fractures 9 A B C

10 What Are The Possible Fracture Sequences? 10 A B C D E It can be noted: B was first C was after E E was after A D was after B Possible Sequences: B, D, A, E, C B, A, D, E, C B, A, E, D, C B, A, E, C, D

11 Radial fractures indicate direction of force 3R Rule: R adial fracture R ight angle R everse side of force Small projectiles entry- exit Entry: smaller hole, smooth surface Exit: wider hole, crater shape, rough surface Direction of Force 11 Entry Hole Exit Hole cratering Right Angle side Force came from this side

12 Class characteristics of glass are limited because glass is so inert—difficult to dissolve in solvents Exception is the Inductively Coupled Plasma Mass Spectrometer (ICP/MS)—digests glass and performs elemental analysis to determine chemical composition ICP/MS in few crime labs Most labs can analyze class characteristics: Physical appearance – size, shape, thickness Color Density Refractive index Class Characteristic of Glass 12

13 Refractive Index (RI) is the ratio of the velocity of light in a vacuum to it’s velocity in a medium Equation: RI = velocity of light in vacuum/velocity of light in medium As light passes from one medium to another, it slows down, causing it to bend or refract Refractive Index 13 The straw appears bent due to refraction of light

14 If two transparent materials have the same RI, light will not refract as it passes from one to the other. If solid is placed in liquid with same RI, it will disappear. Glass Identification Using Properties of Refraction 14 Solid is visible in air. Solid has same RI as liquid. Starts to disappear. Solid immersed in liquid. Not visible.

15 If a transparent solid is immersed in a transparent liquid of different refractive index, bright halo is seen around solid—the Becke line. If transparent solid is immersed in transparent liquid of different refractive index and put under microscope, Becke line will move as ocular to objective lens distance is increased If transparent material is heated, its refractive index will decrease Amount of refraction light undergoes depends on wavelength. Longer the wavelength, less refraction it undergoes Glass Identification Using Properties of Refraction 15

16 Becke Lines 16 Becke Lines Glass immersed in liquid of LOWER index of refraction Becke line Glass immersed in liquid of HIGHER index of refraction Becke line Movement of Becke lines as the objective to stage distance of microscope is increased Glass fragment under microscope

17 Refractive index of small pieces of glass can be determined using commercially available liquids whose refractive indexes are known Refractive Index Determination of a Small Glass Fragment 17 ABC Photo A shows a small piece of Pyrex glass not immersed in a liquid. Photo B shows the same piece of glass immersed in water. Photo C shows the piece immersed in vegetable oil. Pyrex and vegetable oil have similar indices of refraction as shown by the disappearance of the glass in the oil.

18 Crime labs also use a hot stage microscope that allows determination of refractive index Use liquid with slightly higher RI than the glass As liquid heats, RI decreases When glass disappears, the RI is determined Refractive Index Determination of a Small Glass Fragment 18 Hot Stage Microscope

19 Found almost anywhere outdoors Consists of crushed rocks and minerals mixed with decayed plant and animal material (humus) Difficult to categorize—takes a good deal of skill to identify its components Most forensic science labs do not analyze soil evidence except to the extent someone has left an impression in the soil-casting for identification of footwear Soil 19

20 Soil varies in chemical and physical properties from place to place No forensic classification scheme for soils Takes good deal of skill to characterize minerals in soil Soil is always class evidence and has no unique qualities that allow for its individualization Difficulty In Using Soil As Evidence 20

21 Soils may be characterized by their color Color is due to its mineral and moisture content Some laboratories use HPLC to separate and display humus components of soils by extracting soil with acetonitrile and filtering it Color Analysis and Humic Fractions of Soils 21 Liquid Chromatogram of a Soil Sample


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