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Tools of the Trade

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Primary Safety Rule - Familiarize yourself with the hazards and then do nothing ... solutions are not thoroughly mixed prior to addition of final aliquot of solvent ... – PowerPoint PPT presentation

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Title: Tools of the Trade


1
Chapter 2
  • Tools of the Trade

2
Safe Ethical Handling of Chemicals and Waste
  • Safety
  • Primary Safety Rule - Familiarize yourself with
    the hazards and then do nothing you (or your
    instructor or supervisor) consider to be
    dangerous
  • Dont lose your head - Use It!!!

3
Safe Ethical Handling of Chemicals and Waste
  • Safety
  • Dont lose your head - Use It!!!
  • Goggles - required
  • no contacts
  • Familiarize yourself with the location of safety
    equipment
  • showers
  • eye wash
  • fire blanket
  • first aid kit
  • fire extinguishers
  • Gloves

4
Safe Ethical Handling of Chemicals and Waste
  • Handling of Chemicals and Waste
  • Knowledge about the chemicals
  • MSDS
  • Chemical Hazard Label

5
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6
Safe Ethical Handling of Chemicals and Waste
  • Handling of Chemicals and Waste
  • Knowledge about proper disposal techniques
  • pour down drain after diluting with water
  • neutralize and then pour down the drain
  • treat with a chemical then send to a landfill
  • recover the chemical

7
Lab Notebook
  • The notebook should answer 5 questions
  • why
  • how
  • what
  • when
  • who
  • It should be well written, concise and legible

8
Analytical Balance
  • Proper weighing techniques
  • Normal method
  • Weighing by difference
  • Principle of operation
  • Avoid weighing errors
  • fingerprints
  • convective air currents - must be at room
    temperature
  • air current - close doors
  • dust
  • buoyancy

9
Analytical Balance
  • Calibration
  • weigh using a standard
  • verify that the standard is within allowable
    tolerances

10
Analytical Balance
11
Analytical Balance
  • Buoyancy
  • m1 - (da / dw)
  • m ----------------
  • 1 - (da / d)
  • m - mass read from balance
  • da - density of air
  • at 0.0012 g/mL near 1 bar and 25 oC
  • dw - density of claibration weight
  • typically 8.0 g/mL
  • d - density of material being weighed

12
Analytical Balance
  • Buoyancy
  • A pure compound called tris is used as a
    primary standard to measure concentrations of
    acids. The volume of acid required to react with
    a known mass of tris tells us the concentration
    of acid. Find the true mass of tris (density
    1.33 g/mL) if the apparent mass weighed in air is
    100.00g.

13
Analytical Balance
  • Buoyancy
  • Find the true mass of benzene (C6H6, density
    0.88 g/mL) if the apparent mass in air is 9.947
    g. Assume that the air density is 0.001 2 g/mL
    and the balance weight density is 8.0 g/mL.

14
Burets
  • Burets - Glassware that has been calibrated to
    dispense accurate volumes of reagent through a
    stopcock within certain levels of tolerance

15
Burets
16
Burets
  • Markings -
  • TD - to dispense
  • tick marks represent 0.02 mL of solution

17
Burets
  • Proper technique
  • Rinse the buret with the solution to be dispensed
    prior to filling it
  • Add the solution to the buret removing all
    bubbles
  • Carefully read the volume of solution present
  • eye level
  • parallax
  • meniscus
  • carefully note where on a marking the reading is
    being made

18
Burets
  • Proper technique
  • Dispense the solution dropwise until you near the
    calculated endpoint
  • Each drop approx 0.05 mL
  • the solution within should be swirled constantly
    during addition to mix thoroughly
  • Near the calculated endpoint, the solution should
    be dispensed down the side of the receiving
    vessel using only partial drops

19
Volumetric Flasks
  • Volumetric flasks - Glassware that has been
    calibrated to allow preparation of specific
    volumes of solution within specific tolerance
    limits

20
Volumetric Flask
21
Volumetric Flasks
  • Markings
  • TC xx oC - to contain the specified volume
    assuming the temperature is xx oC
  • Since both glassware and solutions expand upon
    heating, temperature variations must be considered

22
Volumetric Flask
  • Proper technique
  • Dissolve reagent in some volume of solvent less
    than the capacity of the flask by swirling.
  • Swirling allows you to rinse the reagent from the
    side of the flask
  • Add additional solvent and swirl again
  • This is to make sure that the solution is
    thoroughly mixed
  • Often when two solutions are mixed, a volume less
    than that expected will emerge if the solutions
    are not thoroughly mixed prior to addition of
    final aliquot of solvent
  • Adjust to final volume, cap, and then invert 20
    times

23
Pipets and Syringes
  • Pipets and syringes - glassware calibrated to
    dispense specific volumes of solution
  • transfer pipet - calibrated to deliver a specific
    volume
  • measuring pipet - calibrated like a buret
  • micropipets
  • syringes

24
Pipets and Syringes
  • Technique
  • Suck the solution into the pipet using a rubber
    bulb or other suction device
  • The solution should be sucked up until the volume
    is 1/3 of the volume past the calibration mark
  • Remove the bulb and cover the pipet with your
    fingertip
  • Hold the tip of the pipet against the bottom of
    the flask
  • Wipe the external surface of the pipet
  • Slowly drain the solution down the side of the
    receptacle
  • Do not force out the last drop of solution

25
Calibrated Glassware Preparation and Cleaning
  • Glass is notorious for adsorbing trace chemicals
  • adsorption - substance sticks to surface
  • absorption - one substance is taken into another
  • Acid wash glassware using 3-6M HCl
  • Soak clean glassware for 1 h in HCl
  • rinse with distilled water
  • soak in distilled water
  • Never leave glassware in alkaline solution
  • alkaline solutions attack glass at a rate of 9
    ?m/h
  • Prior to use rinse thoroughly with solution to be
    used several times before filling the glassware

26
Filtration
  • Collect products for gravimetric analysis
  • Terminology
  • precipitate - solid being collected
  • precipitant - liquid from which the precipitate
    forms
  • also known as the mother liquor
  • filtrate - liquid that passes through the filter
  • slurry - suspension of solid in liquid
  • colloidal precipitate - extremely fine slurry
  • pour down glass rod
  • ignition - a procedure to obtain a known constant
    composition
  • ashless filter paper
  • Funnels - fritted or conical glass funnels

27
Drying Procedure
  • Methods - sample should always be covered while
    drying it
  • Oven
  • weigh filter paper
  • perform filtration
  • dry in an oven for 1 h
  • allow it to cool 30 min
  • weigh
  • re-dry in oven for 1 h
  • allow it to cool 30 min
  • weigh
  • repeat until successive weighs are within 0.3 mg
  • Dessicator
  • Desicant

28
Calibration of Volumetric Glassware
  • Calibration - the process of measuring actual
    quantities of mass, volume, force, electric
    current, etc. that corresponds to an indicated
    quantity on an instrument
  • Alterations in temperature of the solution
    require that corrections be made.
  • Water expands 0.02 per degree near 20 oC
  • Alterations in the glassware are virtually
    insignificant
  • Pyrex glass expands 0.0010 per degree near room
    temperature

29
Calibration of Volumetric Glassware
  • Correction for solution thermal expansion
  • c c
  • ---- ----
  • d d
  • Calibration of a transfer pipet
  • weigh empty weighing bottle
  • fill the pipet to mark with water
  • drain into weighing bottle
  • reweigh bottle to find mass of water delivered
  • True volume (g of water) x (volume of 1 g of
    water from table 2.7)

30
Density of Water
31
Volumetric Glass Calibration
  • Effect of Temperature on Solution Concentration
  • An aqueous solution prepared when the lab
    temperature was 19 C had a concentration 0.027
    64 M. What is the concentration of the same
    solution when used outdoors in the summer at 35
    C?

32
Volumetric Glass Calibration
  • Effect of Temperature on Solution Concentration
  • A 0.031 46 M aqueous solution was prepared in
    winter when the lab temperature was 17 oC. What
    is the molarity of the solution on a warm day
    when the temperature is 25 oC?

33
Volumetric Glass Calibration
  • Calibration of a Pipet
  • An empty weighing bottle had a mass of 10.313 g.
    After adding water from a 25-mL pipet, the mass
    was 35.225 g. If the lab temperature was 27 oC,
    find the volume of water delivered by the pipet.

34
Volumetric Glass Calibration
  • Calibration of a Pipet
  • Water from a 5-mL pipet was drained into a
    weighing bottle whose empty mass was 9.974 g to
    give a new mass of 14.974 g at 26 C. Find the
    volume of the pipet at 26 C and at 20 C.

35
Homework
  • Problems
  • 1, 4, 6, 9, 11, 14, 17, 21, 22, and 24
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