Crime Busters

In Crime Busters, students will identify perpetrators of a certain crime by identifying unknown powders, liquids, and metals, and analyzing hairs, fibers, plastics, fingerprints, DNA evidence, shoeprints, tire treads, soil and splatters. Students will also analyze evidence from paper chromatography. Students should be able to use this data to answer some questions about who committed the crime and how the evidence supports their argument. This event was previously known as Science Crime Busters, but was changed to Crime Busters after the 2009-2010 season.

Supplies
Every team must bring these safety items to be allowed to participate.

 Lab aprons or lab coats. If you're using lab aprons, make sure you're wearing long sleeves that reach the wrists. Closed toe shoes, NO sandals Pants or skirts that cover the legs to the ankles Indirect vent Goggles (ANSI Z87)(eye protection #4) 

Also, the team should and may have the following:  One 8.5" x 11" two-sided page of notes (see Note Sheets for help) ***For 2014 Divison B, you are allowed one sheet PER STUDENT*** Writing instruments(pencils!) Paper towels</li> Magnets</li> Microscope slides and cover slips</li> Tweezers or forceps</li> pH paper</li> Hand lenses</li> Test tubes and racks, spot plates, well plates, reaction plates or similar small containers for mixing</li> Something for scooping and stirring</li> </ul>

The supervisor will provide everything else you need, so if you bring anything outside of what the rules allow you will be penalized.

Before the competition (at school practices)
Check with your SO coach to get the following materials to test:
 * Powders (Italics means it can be used in mixtures)
 * White Sand
 * Calcium Carbonate
 * Table Salt
 * Sugar
 * Flour
 * Cornstarch
 * Gypsum
 * Baking Soda
 * Powdered Gelatin
 * Powdered Alka-Seltzer
 * Sodium Acetate
 * Vitamin C
 * Yeast
 * Metals
 * Aluminum
 * Copper
 * Iron
 * Tin
 * Zinc
 * Magnesium
 * Liquids
 * Rubbing Alcohol
 * Household Ammonia
 * Water
 * Vinegar
 * Hydrogen Peroxide
 * Lemon Juice

The coach will also need-
 * a dropper bottle of 1M HCl (hydrochloric acid)
 * a dropper bottle of Iodine
 * pH or Litmus paper
 * 15-20 unknowns
 * 250 mL dH2O
 * chromatography materials (chromatography paper, ink to be tested, extra beaker for testing)

Make a chart for testing. For powders, include color, reactions with water, HCl, and Iodine; odor (distinct, faint, or none); shape (crystalline, granular, or powder), solubility (whether it dissolves in water or not), and reaction to pH or Litmus paper. For metals, include reactions to HCl and magnetic property (yes or no). For liquids, include smell, reactions to pH or litmus, and color. With your teammate, memorize the results (this is where two heads are better than one) and try testing unknowns made by the coach or other team members. If you can do this, it helps very much when it comes time for the competition.

Water Testing
-	<spoiler text="Water Testing (Not part of 2011 event)"> -	The rules describing water testing are very vague. They only specify what can be tested for, but not how they can be tested. Titrations, probes, and colored strips are some possible methods used. Below is a table of the very basics on each of the things that they can ask about and have you test for- -	-	-

Examples of Water Testing on Past Tests
-	-	2010 Southeast Pennsylvania Regionals- A few strips were given, very similar to pH paper, that you just dipped in and compared to a chart that they provided. You then had to match you data (the crime scene liquid) to data provided for the liquids that the suspects were carrying (their water bottles) and say which it came from. There were 4 strips (so 4 tests total),similar to these. All in all, it wouldn't take you more than 5 minutes max. -	-	2010 Pennsylvania States- Four liquids were given at a shared station, and you had to do two tests on each: pH and some sort of titration (so 8 tests total). For the pH portion, I think it was done using indicator dyes, though I have almost no clue, because they said we could use pH paper instead if we wanted. As far as the titration, they had someone there to explain how to do it, and written instructions. You filled a container with the liquid, then added a certain number of drops of an indicator and a certain number of drops of another chemical, mixing continuously. You then had a tiny syringe filled with another chemical and you slowly added it, mixing constantly until the solution turned purple (it was pink beforehand). I was terrible at this, so it took me around 20 minutes, but you could probably have done it in 10 if you had done a titration before (I would recommend practicing this at least once, because it seems like something that they give at a fair number of competitions). -	-	2010 Nationals- Basically, you got four probes (conductivity, DO, pH, and temperature) and a TI graphing calculator (already set up to receive and display information from any probe if you plugged it in. No preparation was needed to understand how it worked, since they gave written and verbal instructions). You then had an observation/conclusion sheet to record information. You wrote down the probe used and the numerical value received (0.5 points for each one of these pairs) and then had a line to write a conclusion based on the information (0.5 points for each of these). To get full credit (5 points), you needed 5 data entries and 5 conclusions based off those entries. Here is what we had (I don't remember the numbers)- -	-	DO- ### (low)- There is very little dissolved oxygen in the liquid -	-	Temperature- ### (room temp.)- The liquid is about room temperature -	-	Conductivity- ### (high)- The liquid conducts electricity very strongly -	-	pH- ##.# (high)- The liquid is very basic -	-	Temperature- ### (same as first entry)- the liquid does not change temperature over time -	-	-	On the crime part of the test, they said "Liquid S (the one you tested) was found around the area of a freezer, dishwasher, and sink (or something to this extent). Do the necessary tests to figure out exactly where it came from". Since it was very basic and a strong conductor, we said it was from the freezing coils in the freezer (again, I don't know for sure if that's right). They didn't ask any supplemental questions about water testing, like they do for the powders, liquids, fingerprinting, DNA, etc. -
 * I'm not sure if the last one was what they wanted, but there were only 4 probes and you needed 5 tests, so we put that down.

Liquids
Each liquid has a "give-away", making them fairly easy to identify-
 * Lemon Juice has a strong lemon odor (and is a strong acid, like vinegar)
 * Ammonia is the only strong base
 * It is best to use pH paper first, before smelling the unknown liquid, so that you will never have to smell ammonia (even if by wafting) since it can be chosen conclusively if the unknown liquid has a very basic pH.
 * Vinegar has a distinctive vinegar odor (and is a strong acid, like lemon juice)
 * Rubbing Alcohol is neutral, but has a distinctive odor
 * Hydrogen Peroxide and water are very similar (both are odorless, neutral liquids), but there is a simple way to tell them apart. Fill a small well in your testing tray with the liquid, put in a few drops of iodine and stir. After about a minute (though sometimes more), tons of bubbles will appear if it is hydrogen peroxide, while nothing will happen in water (besides the color change due to iodine's color).

Metals
Almost every metal has a "give-away", making them fairly easy to identify-
 * Iron is the only magnetic metal
 * Copper is the only metal with a color other than grey (or similar).
 * Magnesium will often steam with HCl, and will also let off a strong odor when HCl is added.
 * Zinc will react vigorously (but will not steam) with HCl, and is non-magnetic.
 * Tin and aluminum are very similar (neither react very much with HCl), but there are a few things that can be done to tell them apart. First, tin often has a yellowish tint, which aluminum will never have. Next, tin is often fairly shiny, while aluminum is dull. Lastly, if the metal is very malleable, it is probably aluminum (think aluminum foil).

Chromatography
This is very easy to do but must be done with care. You put a dot of ink at one end of a strip of filter paper. Then, get a small cup of solvent (often dH2O) and put the paper on the cup just so that the ink dot is above the water line. Wait for the colors to separate and that's it! Once you have taken the paper out, quickly put a line in pencil where the top edge of the water is on the paper. This allows you to find the Rf (retention factor) value of any ink spot if they ask, or they might be looking for it for full credit.

For practicing paper chromatography at home, use coffee filter paper or paper towel if you do not have chromatography paper. Alcohol-soluble markers and pens will not work, and if they do, the results won't be very visible. Using water-soluble markers/pens like Expo Vis-a-Vis will get you the best results.

Fingerprints
Practice identifying and comparing fingerprints. There are 3 basic categories of fingerprints(arches, loops,and whorls). They are easily identified by there general shape and number of deltas (triangles made from ridges). Make sure you know if your event supervisor is looking for the basic type (loop, arch, whorl), or the more in-depth name (Tented Arch, Ulnar Loop, etc.).
 * Arches= a hill shape with no deltas
 * Tented arch= an arch with a sharp corner at the top point
 * Plain arch= an arch with a more rounded top point
 * Loops= a beanish shape with one delta
 * Ulnar Loop= A loop pointing towards the pinky
 * Radial Loop= A loop pointing towards the thumb
 * Whorls= a circle like shape with two or more deltas
 * There are many sub-categories of whorls, such as (but not limited to)-
 * Plain whorls
 * Central Pocket
 * Double loops
 * Accidental whorls

Polymers
You have to know PETE (1), HDPE (2), PVC (3), LDPE (4), PP (5),PS (6). HDPE, LDPE, and PP float in water while PETE, PVC, and PS do not. This means that the first group has a density less then one and the second group more then one.

''The following method of identifying the polymers is based on the assumption that the supervisor will only provide a beaker of water. A more precise method can be used if you are provided with corn oil, a certain percent concentrated solution of hydrogen peroxide, and a certain percent concentrated solution of salt water.''

Identifying the polymers in the first group is easy. HDPE and LDPE are translucent while PP is not. HDPE is relatively more translucent then LDPE. Identifying in the second group is also fairly simple. PS will SLOWLY drop down in water or half of the flecks will sink while the other will float. PVC is sometimes rubbery, but never transparent, while PETE is always clear.

Fiber Analysis
Natural fibers come from plants (cotton) or animals (wool). Manufactured fibers are synthetics like rayon, acetate, and polyester, which are made from long chains of molecules called polymers. To determine the shape and color of fibers from any of these fabrics, a microscopic examination is made.

Generally, the analysts gets only a limited number of fibers to work with--sometimes only one. Whatever has been gathered from the crime scene is then compared against fibers from a suspect source, such as a car or home, and the fibers are laid side by side for visual inspection through a microscope.

The first step in fiber analysis is to compare color and diameter. If there is agreement, then the analysis can go into another phase. Dyes can also be further analyzed with chromatography, which uses solvents to separate the dye's chemical constituents. Under a microscope, the analysts looks for lengthwise striations or pits on a fiber's surface, or unusual shapes.

In short, the fiber analysts compares shape, dye content, size, chemical composition, and microscopic appearances, yet all of this is still about "class evidence". Even if fibers from two separate places can be matched via comparison, that does not mean they derive from the same source, and there is no fiber database that provides a probability of origin.

Analysis
Keep in mind that this portion of the event is worth 25% of your score. So, ALWAYS, ALWAYS save enough time for you to get it done right!

There are two common ways that an event supervisor could approach the analysis portion of the test-

Essay
They will likely give few instructions besides something along the lines of: "Based on your analysis of the evidence, who is likely the culprit?" However, there are many things that they may be looking for beyond just a name-

Rationale based on physical evidence- You must use the evidence to support your claim. Talk about every piece of physical evidence that points to that person. To connect someone to the crime scene, you would see a connection like "Joe works with flour daily, and flour was found at the crime scene" or even more simply "Joe's fingerprints were found at the crime scene".

Reasons why it wasn't the other suspects- Even if they do not explicitly ask for this, it is an excellent idea to include it in your essay. Write about a sentence for each person (more than a sentence if there is a lot evidence pointing towards them and you have to explain more in depth why it wasn't them). If there is a lot of evidence against a second person, but you're sure it wasn't them, then talk about a logical reason why there would be all of that evidence (for instance, "they work at the crime scene" is a common reason). Also, even if someone has no evidence against them, say that in your essay: "Joe had no evidence connecting him to the crime scene, so he was not the culprit".

Motives- Give a motive for the person you suspect to be the culprit, or if the proctor gave you possible motives in the bios, restate them. This can add a lot to your essay, and help support your claim even if you have the wrong person.

Multiple or No Culprits from List of Suspects- While most tests will have one culprit from the list of suspects, do not get trapped into thinking that it must be only one person. Some proctors may set up the test to point to two people working together, or they may leave insufficient evidence to point to anyone. If either is the case, adjust your essay structure to fit your claim and make a logical explanation. If correct, you will likely do very well. If incorrect, a logical explanation should get you a decent amount of credit for the essay anyway.

Essay Structure-This can never hurt to have, and takes very little time to do. A simple, yet effective structure goes as follows-


 * Intro Sentence- i.e. "Based on the evidence gathered, we concluded that the culprit was Joe".


 * Lead-in to evidence- i.e. "There is much evidence to support our conclusion"


 * State evidence in multiple sentences- i.e. "Flour was found at the crime scene, and Joe works with flour daily. Also, Joe's fingerprints and DNA were found at the crime scene. Finally, Joe.... etc."


 * Lead-in to other suspects- i.e. "In addition, there was not enough evidence to point to any of the other suspects"


 * Sentence on each suspect- See "Reasons why it wasn't the other suspects" section above


 * Conclusion Sentence- i.e. "Therefore, it can be concluded that Joe was the culprit."

Multiple Short Essays
With the time crunch often imposed on the scorers, a sequence of shorter essays (50 words or less) are asked addressing specific areas of analysis: something about the crime, how it was committed, who committed it, sequence of events, or something else of that sort.

At the Competition
Once you get your materials and the supervisor starts the competition, start by getting your chromatography paper started. Then, look at the test and see how long you think it will take or how much there is to do. If it is a lot, make sure you split up the work because you don't want to have wasted potential and then not finish. While the chromatography is going, identify all the unknowns using tests (see section above). Please note that at higher levels of the tournament (state, national) and even sometimes Regionals, different compounds may be combined with each other- for example, flour and Alka-Seltzer. While one person is testing unknowns, the other might want to do the fiber, hair, or polymer testing. If there is microscope set up for the hairs, make sure you go there first, because it will get crowded near the end, and you may have to waste time waiting. After all the unknowns are identified, read through your packet to learn about the crime scene and answer the questions. Then, after questions have been answered, write out the crime solution essay, discussing how the team chose the culprit(s), based on their motive and supporting evidence (the unknowns the person was carrying compared to the substances found at the crime scene). Following the supervisor's instructions, hand in your papers, clean up your lab area, and relax until the supervisor dismisses you.

'''Make sure to leave enough time for the essay. Depending on the event, it may be simple or extremely complex; the National supervisor for this year has a tendency to write events with complex essays that require a fair amount of time to write.'''

WARNING: The rules say you will get 50 minutes. However, the 50 includes the supervisor talking to you about safety/tips/rules/etc, so often you will only have 40-45 minutes to work. It is probably a good idea to practice with only 40-45 minutes to get used to competition conditions. At 2010 Nationals, a brief introduction was given, then 45 minutes to work, along with a 5 or 10 minute clean-up time after you had handed in your test.

HINT: In some competitions, you may not get full points for ONLY identifying the substance. In many instances, they will hand you a blank chart that you must fill your observations into. These observations may include (but are not limited to): HCl test reactions, Iodine test reactions, pH, Solubility in water, Shape, Size, or Color. Even though with one simple HCl and water test, you could figure out alka seltzer, taking time to test it or write down all observations could help you. Even if you skip a small portion, such as hairs, you can still place if you write down all the observations, and not just the identity of the substance, seeing as the identification and process of identifying the substance is worth 50% of your points. Some supervisors will even put a scoring chart on the front/back of the handout/packet that you are given to show you the breakup of points. Even if you fail to correctly identify a substance, the supervisor could give you partial credit for filling in observations.

Scoring
The scoring is composed of these elements:


 * Unknowns Identification (50% of total score) (Second Tiebreaker)


 * Chromatography (5%)


 * Polymer Testing/Natural and Man-Made Substances (Replaced Water Testing) (10%)


 * DNA, finger printing, tire treads, finger prints, shoe prints (10%)


 * Crime Solution Essay (25%) (First Tiebreaker)

Practice Tests
[[Media:SCB Test.pdf|"Dwisney Stars-Twenty Years Later" Test]]
 * Note: You will need to print off the fingerprints, shoeprints, and DNA yourself for the following tests.

[[Media:Answer Key.pdf|"Dwisney Stars-Twenty Years Later" Answer Key]]

[[Media:SCBtest3.pdf|2009 Northridge Invitational Test]]

[[Media:SCBanswers.pdf| 2009 Northridge Invitational Answers]]

[[Media:Crime Busters-worksheets.pdf| Smorgan6's Practice Test]]

[[Media:Crime Busters-answers.pdf| Smorgan6's Practice Test Key]]