preparing laboratory solutions and … preparing laboratory solutions and ... molality 2. molarity...
TRANSCRIPT
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PREPARING LABORATORY SOLUTIONS AND REAGENTS IDr.Sarita Mangukiya
GMCS
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INTERPRETING RECIPES
DEFINITIONS:SOLUTES -- substances that are dissolved
SOLVENTS -- substance in which solutes are dissolved (usually water)
AMOUNT -- how much
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CONCENTRATION -- amount / volume
Fraction where:Numerator, the amount of solute
Denominator, usually volume of entire solution • solvent + solute(s)
CONCENTRATION versus AMOUNT
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Each star represents 1 mg of NaCl.What is the total amount of NaCl in the tube? _____What is the concentration of NaCl in the tube (in mg/mL)? _____
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Each star represents 1 mg of NaCl.What is the total amount of NaCl in the tube? 4 mg
What is the concentration of NaCl in the tube (in mg/mL)? 4 mg = ?_5 mL 1 mL
? = 0.8 mg, so the concentration is 0.8 mg/mL
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CONCENTRATION EXPRESSIONS
1. Molality
2. Molarity
3. Normality
4. Percenta. Weight per Volume %
(w/v %) b. Volume per Volume %
(v/v %) c. Weight per Weight %
(w/w %)
5.Parts
6.Dilution
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Molarity
Prepare 0.1 m NaOH
MW OF NaOH = 40 gm/L
1 mole =40 gm/L
0.1 mole = ???
= 4 gm /L
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STILL MORE CONCENTRATION EXPRESSIONS
TYPES NOT COMMON IN BIOLOGY MANUALS:
1. MOLALITY
6. NORMALITY• for NaOH and HCl, molarity = normality, however, this is not
always true for all solutes
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WEIGHT / VOLUME
Means a fraction with:
weight of solute in numerator
total volume in denominator
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EXAMPLE:
2 mg/mL proteinase K
2 mg of proteinase K in each mL of solution.
How much proteinase K is required to make 50 mL of solution at a concentration of 2 mg/mL?
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PROPORTION PROBLEM
2 mg proteinase K = X
1 mL solution 50 mL solution
X = 100 mg
= amount proteinase K needed.
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MOLARITY
Molarity is: number of moles of a solute that are dissolved per liter of total solution.
A 1 M solution contains 1 mole of solute per liter total volume.
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EXAMPLE: SULFURIC ACID
For a particular compound, add the atomic weights of the atoms that compose the compound.
H2SO4:
2 hydrogen atoms 2 X 1.00 g = 2.00 g
1 sulfur atom 1 X 32.06 g = 32.06 g
4 oxygen atoms 4 X 16.00 g = 64.00 g
98.06 g
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EXAMPLE CONTINUED
A 1M solution of sulfuric acid contains 98.06 g of sulfuric acid in 1 liter of total solution.
"mole" is an expression of amount
"molarity" is an expression of concentration.
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DEFINITIONS
"Millimolar", mM, millimole/L. A millimole is 1/1000 of a mole.
"Micromolar", µM, µmole/L. A µmole is 1/1,000,000 of a mole.
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FORMULA
HOW MUCH SOLUTE IS NEEDED FOR A SOLUTION OF A PARTICULAR MOLARITY AND VOLUME?
(g solute ) X (mole) X (L) = g solute needed
1 mole L
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EXAMPLE
How much solute is required to make 300 mL of 0.8 M CaCl2?
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ANSWER
(111.0 g) (0.8 mole) (0.3 L) = 26.64 g
mole L
1 mol = 111 gm/ L
0.8 mol = 0.8 X111 = 88.8 gm/L
1000 ml contain = 88.8 gm/L
300 ml = ??? – =26.64 gm
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From Basic Laboratory Methods for Biotechnology: Textbook and Laboratory Reference, Seidman and Moore, 2000
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TO MAKE SOLUTION OF GIVEN MOLARITY AND VOLUME
1. Find the FW of the solute, usually from label.
2. Determine the molarity desired.
3. Determine the volume desired.
4. Determine how much solute is necessary by using the formula.
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PROCEDURE CONT.
5. Weigh out the amount of solute.
6. Dissolve the solute in less than the desired final volume of solvent.
7. Place the solution in a volumetric flask or graduated cylinder. Add solvent until exactly the required volume is reached, Bring To Volume, BTV.
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PERCENTS
X % is a fraction
numerator is X
denominator is 100
Three variations on this theme.
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WEIGHT/VOLUME %
TYPE I:
Grams of solute
100 mL total solution
Most common in biology.
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EXAMPLE
20 g of NaCl in
100 mL of total solution
= 20% (w/v) solution.
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EXAMPLE: BY PROPORTIONS
How would you prepare 500 mL of a 5 % (w/v) solution of NaCl?
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ANSWER
By definition: 5 % = 5 g
100 mL
5 g = ?
100 mL 500 mL
? = 25 g = amount of solute
BTV 500 mL
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BY EQUATION
How would you prepare 500 mL of a 5 % (w/v) solution of NaCl?
1. Total volume required is 500 mL.
2. 5% = 0.05
3. (0.05) (500 mL) = 25
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% EXAMPLE CONTINUED
4. 25 is the amount of solute required in grams.
5. Weigh out 25 g of NaCl. Dissolve it in less than 500 mL of water.
6. In a graduated cylinder or volumetric flask, bring the solution to 500 mL.
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From Basic Laboratory Methods for Biotechnology: Textbook and Laboratory Reference, Seidman and Moore, 2000
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TWO OTHER FORMS OF %
v/v mL solute
100 mL solution
w/w g solute
100 g solution
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WEIGHT/WEIGHT
How would you make 500 g of a 5% solution of NaCl by weight (w/w)?
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ANSWER
1. Percent strength is 5% w/w, total weight desired is 500g.
2. 5% = 5g/100g3. 5g X 500 g = 25 g = NaCl needed
100 g
1. 500 g – 25 g = 475 g = amount of solvent needed
2. Dissolve 25 g of NaCl in 475 g of water.
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PARTS
Parts may have any units but must be the same for all components of the mixture.
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EXAMPLE:
A solution is 3:2:1 ethylene:chloroform:isoamyl alcohol
Might combine:
3 liters ethylene
2 liters chloroform
1 liter isoamyl alcohol
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PPM AND PPB
ppm: The number of parts of solute per 1 million parts of total solution.
ppb: The number of parts of solute per billion parts of solution.
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PPM EXAMPLE:
5 ppm chlorine = 5 g of chlorine in 1 million g of solution,
or 5 mg chlorine in 1 million mg of solution,
or 5 pounds of chlorine in
1 million pounds of solution
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PPM TO MICROGRAMS/mL
For any solute:
1 ppm in water = 1 microgram
mL
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PREPARATION OF SOLUTIONS
Preparing Dilute Solutions from Concentrated Ones (C1V1=C2V2)
Biological Buffers
Preparing Solutions with More Than One Solute
Assuring the Quality of a Solution
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PREPARING DILUTE SOLUTIONS FROM CONCENTRATED ONES
Concentrated solution = stock solution
Use this equation to decide how much stock solution you will need: C1V1=C2V2
C1 = concentration of stock solutionC2 = concentration you want your dilute
solution to beV1 = how much stock solution you will needV2 = how much of the dilute solution you want
to make
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EXAMPLE
How would you prepare 1000 mL of a 1 M solution of Tris buffer from a 3 M stock of Tris buffer?
The concentrated solution is 3 M, and is C1.
The volume of stock needed is unknown, ?, and is V1.
The final concentration required is 1 M, and is C2.
The final volume required is 1000 mL and is V2.
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SUBSTITUTING INTO THE EQUATION:
C1 V1 = C2 V2
3 M (?) 1 M (1000 mL)
? = 333.33 mL
So, take 333.33 mL of the concentrated stock solution and BTV 1 L.
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“X” SOLUTIONS
The concentration of a stock solution is sometimes written with an “X”.
The “X” is how many more times the stock is than normal.
You generally want to dilute such a stock to 1X, unless told otherwise.
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EXAMPLE
A can of frozen orange juice is labeled 4X. How would you dilute it to make 1L of drinkable drinkable juice?
Using the C1V1=C2V2 equation:
C1 V1 = C2 V2
4X (?) = 1X (1L)
? = 0.25 L
Use 0.25 L of orange juice, BTV 1L.
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Problem: You have available 12.0 M HCl (conc. HCl) and wish to prepare 0.500 L of 0.750 M HCl for use in an experiment. How do you prepare such a solution?
Cconc Vconc = Cdil Vdil
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Problem: You have available 12.0 M HCl (conc. HCl) and wish to prepare 0.500 L of 0.750 M HCl for use in an experiment. How do you prepare such a solution?
Cconc Vconc = Cdil Vdil
Cconc = 12.0 mol L-1 Cdil = 0.750 mol L-1
Vconc = ? Vdil = 0.500 L
Vconc = (Cdil)(Vdil) / Cconc
Vconc = (0.750 mol L-1) (0.500 L) / 12.0 mol L-1
Vconc = 3.12 x 10-2 L = 31.2 mL
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Specific Gravity
It relate the weight of 1 ml of the solution & the weight of equal volume of pure water at 4'c .
Its use is in preparation of diluted solution from concentated acids.
Specific gravity X percent assay = grams of compound per milliliter
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Example
Concentrated HCL has specific gravity of 1025 g/ml & is assayed as being 38 % HCL.What is the amount of HCL per milliliter ???
0.475 gm of HCL Per ml.