Additional Lecture: TITRATION BASICS



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Additional Lecture: TITRATION BASICS 1

Definition and Applications Titration is the incremental addition of a reagent solution (called titrant) to the analyte until the reaction is complete Common applications: 1. Determine purity of analyte Ex. Soda ash purity lab 2. Determine concentration of analyte Ex. Standardization lab Example of industries that use titrations Food and beverage Ex. Salt content of food; Acid content of wine Detergent manufacturing Ex. Anionic surfactant content of detergents Metallurgy Ex. Cu, Cr and Ni contents of electroplating baths Environmental firms Ex. Total hardness of water (due to Mg 2+ and Ca 2+ ) 2

Major requirements for a titration reaction: Large K eq Fast reaction goes to completion speed; productivity Types of Reactions Used in Titration Acid-base Ex. Standardization of HCl with Na 2 CO 3 Complexometric Ex. Determining Ca 2+ in water by EDTA titration Redox Ex. Cu, Cr and Ni contents of electroplating baths Precipitation Ex. Salt content in crisps, ketchup and food 3

The Standard Solution A standard solution is a reagent solution of known concentration used in titration Usually the titrant Ex. You used your standard 0.1 M HCl to determine purity of soda ash Typically prepared from a primary standard Ex. You used primary standard sodium carbonate to standardize HCl (aq) (also primary standard KHP to standardize NaOH (aq) ) A primary standard is a highly pure (at least 99.99 %) compound that serves as reference material in all volumetric methods 4

Equivalence Point vs. End Point Q. How do we know when a titration reaction is complete? When we perform a titration, we use an indicator that changes color at or near completion of reaction. Color change is referred to as the end point of a titration Technically, the equivalence point of the titration is the point at which exactly enough titrant has been added to react with all of the analyte. Thus, at the equivalence point, the number of moles of titrant added corresponds exactly to the number of moles of substance being titrated according to the reaction stoichiometry 5

Equivalence Point Example: Redox reaction involving permanganate 5 H 2 C 2 O 4 + 2 MnO 4 - + 6H + 10 CO 2 + 2 Mn 2+ + 8 H 2 O Oxalic acid Permanganate Analyte Titrant At the equiv. pt.: 5 mol H 2 C 2 O 4 have reacted with 2 mol MnO 4 - NOTE: It is difficult to determine exactly when the equivalence point is reached based on # moles. Reason for use of indicator and stopping the titration when the end point (color change) is reached 6

Titration Error Titration error = the difference between the end point and the equivalence point Flask before endpoint......approximately at endpoint... (very faint pink tinge) Small titration error...after endpoint (overshot) Big titration error 7

Equivalence Point Detection Methods (1) Indicator method = based on color change of indicator Most commonly used A dye whose color change depends on ph (2) Potentiometric method = based on sudden change in voltage or current between a pair of electrodes Ex. Alkalinity lab (ph change depends on voltage change) (3) Absorbance method = based on absorbance of light Ex. Product absorbs light => absorption increases as product forms Equivalence point is reached when absorbance starts to level off Why? Product no longer forms when reaction is complete 8

Indicator Method: Titration of Cl - with Ag + Before titration During titration (before the equivalence point) At the equivalence point of titration Only a fixed amount of Cl- in solution plus free indicator Added titrant reacts with Cl - to form product, solid AgCl All the analyte Cl - has reacted with an equivalent amount of titrant = Cl - ions = AgCl solid (product) = free or unbound indicator 9

Indicator Methods After the equivalence point Small amount of excess titrant reacts with indicator, causing color change = Cl - ions = AgCl solid (product) = excess titrant = product of reaction between excess titrant and indicator 10

Types of Chemical Reactions Used in Titration (1) Acid/Base reactions: Examples: Acid content in wine, milk. Acid content in ketchup. Content of inorganic acids like sulfuric acid. (2) Precipitation reactions: Examples: Salt content in crisps, ketchup and food; Silver content in coins, Sulfate content in mineral water; Sulfate content in electroplating bath (3) Redox reactions: Examples: Content of copper, chromium and nickel in electroplating baths 11

(4) Complexometric reactions: Examples: Total hardness of water (Mg and Ca); Calcium content in milk and cheese; Cement analysis (5) Colloidal precipitation reaction: Examples: Anionic surfactant content in detergents; Anionic surfactant content in washing powders; Anionic surfactant content in liquid cleanser. Source: Mettler-Toledo Homepage http://us.mt.com/mt/faq/faq_entry_level_titration_editorial-faq_1117542390221.jsp 12

Advantages of titration Classical, well-known analytical technique Fast Very accurate and precise technique High degree of automation Good price/performance ratio compared to more sophisticated techniques It can be used by low-skilled and trained operators No need for highly specialized chemical knowledge Source: Mettler-Toledo Homepage http://us.mt.com/mt/faq/faq_entry_level_titration_editorial-faq_1117542390221.jsp 13

Problem Solving: Titrations Sample problem: How many ml of 0.100 M KI are needed to react with 40.0 ml of 0.0400 M Hg 2 (NO 3 ) 2. 14

Back Titrations Back titration is a technique which allows the user to find the concentration of an analyte by reacting it with an excess volume of another reactant of known concentration. The resulting mixture is then titrated back, taking into account the molarity of the excess which was added. Uses of Back Titration: When the sample is not soluble in water When the sample contains impurities that interfere with forward titration, or When the end-point is more easily identified than in forward titration. http://en.wikipedia.org/wiki/back_titration 15

Problem Solving: Titrations Sample problem 2: Limestone consists mainly of the mineral calcite, CaCO 3. The carbonate content of 0.5413 g powdered limestone was measured by suspending the powder in water, adding 10.00 ml of 1.396 M HCl and heating to dissolve the solid and expel CO 2 : CaCO 3 (s) + 2 H + Ca 2+ + CO 2 + H 2 O Calcium carbonate (MM 100.087) The excess acid required 39.96 ml of 0.1004 M NaOH for complete titration to a phenolphthalein end point. Find the mass % of calcite in the limestone. 16

Problem Solving: Titrations 17

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