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Chemistry Lab

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It is recommended, but not required, that teams include one student who has ... Observation station with a Geiger counter to detect emissions ... – PowerPoint PPT presentation

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Title: Chemistry Lab


1
Chemistry Lab
  • Division C

2
  • Andy Shaw
  • Sr. Research Biochemist
  • Merck Co.
  • West Point, PA
  • Ph.D. in Chemistry
  • University of Illinois
  • 7 years involvement with Science Olympiad
  • 5 years State Event Supervisor
  • 3 years Regional Event Supervisor
  • 2005 National Event Supervisor
  • 2006 Coaches Clinic Presenter

3
Chemistry Lab Basics
  • Two-Person Event
  • It is recommended, but not required, that teams
    include one student who has already completed one
    year of chemistry
  • Two-Part Event
  • Chemistry Lab is typically split into two main
    topics
  • Each topic may be divided into multiple
    experiments or multiple observation stations
  • Questions will cover both topics two tiebreakers
  • Time Limit 50 Minutes
  • Work AND cleanup must be completed in 50 minutes
  • Depending on the setup, students may have the
    option to work individually on each part

4
Rule Changes
  • NONE
  • (YEAH!!)

5
Safety in the Laboratory
  • Students must bring and wear at all times
  • Aprons or lab coats
  • OSHA approved splash goggles with indirect vents
  • No open-toed shoes may be worn
  • Pants or skirts must cover legs to ankles
  • Gloves are recommended
  • Students lacking the proper attire or protective
    equipment will not be allowed to compete!
  • No tasting or touchingof powders is allowed
  • Chemical waste must be disposed of in the waste
    containers provided
  • No mouth pipetting
  • Students who perform unsafe procedures will be
    disqualified from the event!

6
Typical Penalties
  • Incomplete Bench Cleanup
  • At the end of 50 minutes, the work area must be
    cleaned and chemicals returned to their original
    location
  • Safety Violations
  • Goggles must be worn when handling chemicals
  • Poor Laboratory Technique
  • Significant Figures Errors
  • Incorrect or Omitted Units

7
Yearly Requirements
  • Recording observations from one or more
    observation stations
  • Interpretation of data, both graphical and
    tabular
  • Stoichiometry mole conversions, percent yield
  • Calculations using relevant equations
  • Nomenclature and formula writing
  • Elemental forms
  • Derive symbols/charges for monatomic ions, such
    as Na, O2, and Br- from the periodic table
  • Memorize symbols/charges for the polyatomic ions
    nitrate(-ite), carbonate, phosphate(-ite),
    acetate, sulfate(-ite), ammonium, bicarbonate,
    and hydroxide

8
Yearly Changes
  • Topics
  • The two topics of focus change each year
  • Experiments
  • Accordingly, the experiments change along with
    the topics and vary in length and in design
  • Questions and Equations
  • The set of equations needed to answer questions
    varies with the topic students are expected to
    know relevant equations and the variables they
    contain
  • Division of Labor
  • Because of equipment limitations, students may
    have a decided amount of time to work on each
    experiment or observation station before moving
    on
  • Depending on the setup, students may or may not
    be able to work individually on the different
    experiments

9
Strategies for Success
  • Read directions completely!
  • Answer questions as directly as possible
  • Balance equations when necessary
  • Show work!
  • Write down everything relevant to the question
    partial credit is sometimes given, and if nothing
    else, the equation usually provides a good
    starting point
  • Work efficiently
  • If a question is particularly difficult, move on
  • Ask the proctors questions if confused
  • Safety is the foremost concern! If there are
    procedural questions, it is better to ask than to
    be unsafe!

10
Preparation - Teamwork
  • Prepare together
  • Teams will benefit from doing experiments
    together ahead of time
  • Determine individual strengths
  • Divide tasks during competition
  • Check teammates work
  • Teammates should check one another for time
    management purposes, too

11
Preparation - Material
  • Know the equations
  • Know what variables represent
  • Equations are sometimes given, but are useless
    without the units or values for the variables
  • Look for the most common experiments, by topic,
    and do them
  • Understand conversions (i.e. L ? mol, C ? J)

12
2006 Chemistry Lab - Topics
  • Thermodynamics
  • Direction of heat flow, phase diagrams
  • Endothermic vs. exothermic processes
  • Heat capacity and calorimetry
  • Heats of fusion, vaporization, and reaction
  • Entropy, Gibbs free energy
  • Physical Properties
  • Elasticity and brittleness
  • Conductivity and electrical resistance, magnetism
  • Density
  • Melting and boiling points
  • Solubility

13
2006 ChemLab - Equations
Thermodynamics n?Hdissolution -qsurr
-mC?Twhere n of moles, C 4.184 J/(mol
C) ?G ?H T?S ?G -RT ln(K) qsys
-qsurr n mass / formula weight error
(actual experimental) / actual 100
Physical Properties ? (density) m / V M
grams solute / L solvent Intermolecular forces
ion-ion gt ion-dipole gt H-bonding gt dipole-dipole
gt London Dispersion Forces
14
2006 ChemLab - Experiments
  • Thermodynamics
  • Determine the specific heat of a metal or of a
    liquid
  • Determine the heat of reaction (?Hrxn) coffee
    cup calorimetry
  • Determine heat of fusion of ice
  • Determine heat of combustion
  • Apply Hess Law
  • Determine heat exchange between water samples
  • Physical Properties
  • Determine the density of an object
  • Use density to identify unknowns
  • Use Hookes Law to determine the elasticity of a
    solid
  • Separate a mixture by physical means
  • Explore the relationship between solubility and
    temperature
  • Explore the relationship between chemical
    structure and boiling or melting points

15
2006 ChemLab - Questions
  • Thermodynamics
  • Sulfur trioxide decomposes to sulfur dioxide and
    oxygen gas.
  • Write out and balance the decomposition reaction.
  • 2SO3 ? 2SO2 O2
  • Calculate ?Grxn given ?Gf for the above
    compounds
  • ?Grxn 2?Gf(SO2) - 2 ?Gf(SO3)
  • Are reactants or products favored at room
    temperature, 25C?
  • ?G is positive - reactants
  • At which temperature would the reaction favor the
    other?
  • Calculate T from ?G ?H T?S, where ?G 0 T
    is in units of K
  • Physical Properties
  • Ethanol, water, and silicone oil are heated on a
    hot plate and receive the same amount of heat,
    but are at different temps.
  • Given the structure of these compounds, a) why
    are they at different temperatures, b) what is
    the label for the x-axis above, including units,
    and c) to which liquids could A and B correspond?

16
2007 Chemistry Lab
  • Nuclear Chemistry
  • Observation station with a Geiger counter to
    detect emissions
  • Calculate half-lives for compounds, such as
    carbon-dating using 14C emission
  • Differentiate between types of radiation (a, ß, ?
    particles) and effectiveness of radiation
    shielding
  • Gas Laws
  • Ideal gas law Understand the relationship
    between P, V, and T, and how changing one affects
    the others
  • Determine the partial pressure of a wet gas, and
    predict its volume at a different temperature
  • Calculate the densities and relative effusion
    rates of different gases

17
2008 Chemistry Lab
  • Chemical Reactions
  • Investigate an activities series
  • Investigate different types of reactions
  • Investigate solubility rules
  • Energy
  • Determine specific heat, heat of vaporization or
    fusion
  • Determine the amount of energy in a fuel
  • Use Hesss Law
  • Explore heating or cooling curves

18
Tips from the Supervisor
  • Read the instructions through first!!
  • Students should to plan their time for an event
    by reading the experiments before they begin
  • Divide and conquer know individual strengths
    and work separately to complete tasks if needed
  • Have a good foundation in making physical
    measurements (mass, pH, etc.)

19
Additional Resources
  • Visit the Chemistry Lab webpage at the Science
    Olympiad website
  • http//www.soinc.org/events/chemlab/index.htm
  • Doesnt look like its been updated for this year
    yet, but keep checking back.
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