Indicators and pH Meters

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Presentation transcript:

Indicators and pH Meters Section 2 Determining pH and Titrations Chapter 15 Indicators and pH Meters Acid-base indicators - compounds whose colors are sensitive to pH. Indicators change colors because they are either weak acids or weak bases. HIn and In are different colors. In acidic solutions, most of the indicator is HIn In basic solutions, most of the indicator is In–

Indicators and pH Meters Section 2 Determining pH and Titrations Chapter 15 Indicators and pH Meters Transition interval - pH range over which an indicator changes color Indicators that change color at pH lower than 7 are stronger acids than the other types of indicators. They tend to ionize more than the others. Indicators that undergo transition in the higher pH range are weaker acids.

Indicators and pH Meters Section 2 Determining pH and Titrations Chapter 15 Indicators and pH Meters pH meter - determines the pH of a solution by measuring the voltage between the two electrodes that are placed in the solution. The voltage changes as the hydronium ion concentration in the solution changes. Measures pH more precisely than indicators

Color Ranges of Indicators Section 2 Determining pH and Titrations Chapter 15 Color Ranges of Indicators

Color Ranges of Indicators Section 2 Determining pH and Titrations Chapter 15 Color Ranges of Indicators

Color Ranges of Indicators Section 2 Determining pH and Titrations Chapter 15 Color Ranges of Indicators

H3O+(aq) + OH(aq) 2H2O(l) Section 2 Determining pH and Titrations Chapter 15 Titration Neutralization occurs when hydronium ions and hydroxide ions are supplied in equal numbers by reactants. H3O+(aq) + OH(aq) 2H2O(l) Titration - controlled addition and measurement of the amount of a solution of known concentration required to react completely with a measured amount of a solution of unknown concentration.

Chapter 15 Equivalence Point Section 2 Determining pH and Titrations Chapter 15 Equivalence Point Equivalence point - point at which the two solutions used in a titration are present in chemically equivalent amounts End point - point in a titration at which an indicator changes color

Chapter 15 Equivalence Point Section 2 Determining pH and Titrations Chapter 15 Equivalence Point Indicators that undergo transition at about pH 7 are used to determine the equivalence point of strong-acid/strong base titrations. The neutralization of strong acids with strong bases produces a salt solution with a pH of 7.

Chapter 15 Equivalence Point Section 2 Determining pH and Titrations Chapter 15 Equivalence Point Indicators that change color at pH lower than 7 are used to determine the equivalence point of strong-acid/weak-base titrations. The equivalence point of a strong-acid/weak-base titration is acidic.

Chapter 15 Equivalence Point Section 2 Determining pH and Titrations Chapter 15 Equivalence Point Indicators that change color at pH higher than 7 are used to determine the equivalence point of weak-acid/strong-base titrations. The equivalence point of a weak-acid/strong-base titration is basic.

Titration Curve for a Strong Acid and a Strong Base Section 2 Determining pH and Titrations Chapter 15 Titration Curve for a Strong Acid and a Strong Base

Titration Curve for a Weak Acid and a Strong Base Section 2 Determining pH and Titrations Chapter 15 Titration Curve for a Weak Acid and a Strong Base

Molarity and Titration Section 2 Determining pH and Titrations Chapter 15 Molarity and Titration Standard solution - solution that contains the precisely known concentration of a solute Primary standard - highly purified solid compound used to check the concentration of the known solution in a titration The standard solution can be used to determine the molarity of another solution by titration.

Performing a Titration, Part 1 Section 2 Determining pH and Titrations Chapter 15 Performing a Titration, Part 1

Performing a Titration, Part 1 Section 2 Determining pH and Titrations Chapter 15 Performing a Titration, Part 1

Performing a Titration, Part 1 Section 2 Determining pH and Titrations Chapter 15 Performing a Titration, Part 1

Performing a Titration, Part 2 Section 2 Determining pH and Titrations Chapter 15 Performing a Titration, Part 2

Performing a Titration, Part 2 Section 2 Determining pH and Titrations Chapter 15 Performing a Titration, Part 2

Performing a Titration, Part 2 Section 2 Determining pH and Titrations Chapter 15 Performing a Titration, Part 2

Molarity and Titration Section 2 Determining pH and Titrations Chapter 15 Molarity and Titration To determine the molarity of an acidic solution, 10 mL HCl, by titration Titrate acid with a standard base solution 20.00 mL of 5.0  103 M NaOH was titrated Write the balanced neutralization reaction equation. HCl(aq) + NaOH(aq) NaCl(aq) + H2O(l) 1 mol 1 mol 1 mol 1 mol Determine the chemically equivalent amounts of HCl and NaOH.

Molarity and Titration Section 2 Determining pH and Titrations Chapter 15 Molarity and Titration Calculate the number of moles of NaOH used in the titration. 20.0 mL of 5.0  103 M NaOH is needed to reach the end point amount of HCl = mol NaOH = 1.0  104 mol Calculate the molarity of the HCl solution

Molarity and Titration Section 2 Determining pH and Titrations Chapter 15 Molarity and Titration Start with the balanced equation for the neutralization reaction, and determine the chemically equivalent amounts of the acid and base. 2. Determine the moles of acid (or base) from the known solution used during the titration. 3. Determine the moles of solute of the unknown solution used during the titration. 4. Determine the molarity of the unknown solution.

Chapter 15 Sample Problem F Section 2 Determining pH and Titrations Chapter 15 Sample Problem F In a titration, 27.4 mL of 0.0154 M Ba(OH)2 is added to a 20.0 mL sample of HCl solution of unknown concentration until the equivalence point is reached. What is the molarity of the acid solution?

Chapter 15 Antacid Visual Concepts Click below to watch the Visual Concept. Visual Concept