Presentation is loading. Please wait.

Presentation is loading. Please wait.

Acid/Base Titration Technique used to determine the concentration of an acid or base by comparison with a standard. A neutralization reaction is carried.

Published byFerdinand Melton Modified over 8 years ago

Similar presentations

Presentation on theme: "Acid/Base Titration Technique used to determine the concentration of an acid or base by comparison with a standard. A neutralization reaction is carried."— Presentation transcript:

1 Acid/Base Titration Technique used to determine the concentration of an acid or base by comparison with a standard. A neutralization reaction is carried out. Rely on color change to signal end of reaction.

2 Titration: Monoprotic Acid + Monohydroxy Base HA + MOH  MA + H 2 O Use the relationship in the balanced equation to find the unknown concentration. At the end-point, # moles HA = # moles MOH

3 How to calculate # of moles? Remember Molarity! Molarity = # moles solute Rearranging: # moles solute = Liters of solution Molarity X Liters of solution

4 Acid-Base Titration Carefully controlled neutralization reaction. standard solution acid-base indicatorRequires a standard solution and an acid-base indicator. Standard solution has an acid or base of known concentration.

5 Titration Standard solution is slowly added to unknown solution. As the solutions mix, a neutralization reaction occurs. Equivalence pointEventually, enough standard solution is added to neutralize the unknown solution.  Equivalence point. Simple Titration Animation

6 Equivalence point Total number of moles of H + ions donated by acid = total number of moles of H + accepted by base. Total moles H + = total moles OH -

7 Titration End-pointEnd-point = point at which indicator changes color. If the indicator is chosen correctly, the end-point is very close to the equivalence point.

8 Titration of a strong acid with a strong base Volume of 0.100 M NaOH added (ml) pH 0- 14- 7- Equivalence Pt  Phenolphthalein Color change: 8.2 to 10  Between pH of 4 and 10, only drops a few drops of base are added. 0 ml  40ml  20 ml

9 M H+ V H+ = M OH- V OH- M H+ = molarity of H + M OH- = molarity of OH - V H+ = volume of H + V OH- = volume of OH - If you know 3, you can find the 4 th.

10 M a V a = M b V b True for monoprotic acids and monohydroxy bases.

11 Titration Problem #1 40.0 mL 35.0 mL0.100 M NaOHCalculate the concentration of the nitric acid solution.In a titration of 40.0 mL of a nitric acid solution, the end point is reached when 35.0 mL of 0.100 M NaOH is added. Calculate the concentration of the nitric acid solution.

12 Neutralization Reaction HNO 3 + NaOH  H 2 O + NaNO 3 1 H in acid & 1 OH in base. M a V a = M b V b

13 Variables M a = ? V a = 40.0 mL M b = 0.100 M V b = 35.0 mL

14 Plug and Chug X (40.0 mL) = (0.100 M )(35.0 mL) X =.0875 M

15 Titration Problem #2 What is the concentration of a hydrochloric acid solution50.0 mL0.250 M KOH 20.0 mL of the HCl solutionWhat is the concentration of a hydrochloric acid solution if 50.0 mL of a 0.250 M KOH solution are needed to neutralize 20.0 mL of the HCl solution of unknown concentration?

16 Neutralization Reaction KOH + HCl  H 2 O + KCl 1 H in acid & 1 OH in base M a V a = M b V b

17 Variables M a = X V a = 20.0 mL M b = 0.250 M V b = 50.0 mL

18 Plug and Chug X (20.0 mL) = (0.250 M) (50.0 mL) X = 0.625 M

19 Titration Problem #3 What is the concentration of a sulfuric acid solution50. mL of a 0.25 M Ba(OH) 2 20 mL of the H 2 SO 4 solutionWhat is the concentration of a sulfuric acid solution if 50. mL of a 0.25 M Ba(OH) 2 solution are needed to neutralize 20 mL of the H 2 SO 4 solution of unknown concentration?

20 Neutralization Reaction H 2 SO 4 + Ba(OH) 2  2 H 2 O + BaSO 4 H 2 SO 4 is a strong diprotic acid. Ba(OH) 2 is a strong dihydroxy base. # of H’s in acid = # of OH’s in base. M a V a = M b V b

21 Variables M a = X V a = 20. mL M b = 0.25 M V b = 50. mL

22 Plug and Chug X (20.) = (0.25 M) (50. mL) X = 0.625 M = M H+ To calculate the Molarity of the H 2 SO 4, adjust for the fact that the acid is diprotic.

23 [H + ] vs. [H 2 SO 4 ] H 2 SO 4  2H + + SO 4 2- Molarity of H 2 SO 4 = ½ [H + ] ½ (0.625 M) = 0.31 M H 2 SO 4

24 Other kinds of Titrations Titrations based on redox reactions are also used. Same ideas: rely on color change to signal completion of reaction. Use stoichiometric equalities to determine concentration of unknown. Redox titrationAnimation

25 Salts A salt is an ionic compound containing positive ions other than H + and negative ions other than OH - Hydrolysis is the opposite of neutralization. –Literally means “water splitting.” –A reaction between water and the ions of a dissolved salt. When a salt undergoes hydrolysis, it reacts with water to form an acid and a base. Acid + Base  Salt + Water

26 Hydrolysis To predict which solution occurs when salts react with water, i.e., neutral, acidic or basic: –Identify the cation and anion present in the salt –Determine if from a strong or a weak acid/base General Rule: strong acid + strong base  neutral salt strong acid + weak base  acidic salt weak acid + strong base  basic salt

27 Buffers Buffers are solutions that resist changes in pH when limited amounts of acid or base are added. A buffer is a mixture of a weak acid and its conjugate base or a weak base and its conjugate acid. The mixture of ions and molecules resist changes in pH by reacting with any H+ or OH- added to the solution.

Download ppt "Acid/Base Titration Technique used to determine the concentration of an acid or base by comparison with a standard. A neutralization reaction is carried."

Similar presentations

III. Titration (p. 493 - 503) Ch. 15 & 16 - Acids & Bases.

III. Titration (p ) Ch. 15 & 16 - Acids & Bases.
V. Acid-Base Titration Titration is the process of adding a measured

V. Acid-Base Titration Titration is the process of adding a measured
Strength n Acids and Bases are classified acording to the degree to which they ionize in water: –Strong are completely ionized in aqueous solution; this.

Strength n Acids and Bases are classified acording to the degree to which they ionize in water: –Strong are completely ionized in aqueous solution; this.
Arrhenius Definition of Acids Bases - Substances that produce hydrogen ions, H + when dissolved in water - Substances that produce hydroxide ions, OH -

Arrhenius Definition of Acids Bases - Substances that produce hydrogen ions, H + when dissolved in water - Substances that produce hydroxide ions, OH -
Aim: What is titration? Write the completed neutralization reaction for the following reactants. 1. Carbonic acid and potassium hydroxide 2. Phosphoric.

Aim: What is titration? Write the completed neutralization reaction for the following reactants. 1. Carbonic acid and potassium hydroxide 2. Phosphoric.
10.2 Neutralization and Acid-Base Titrations Learning Goal … …use Stoichiometry to calculate volumes and concentrations in a neutralization reaction …

10.2 Neutralization and Acid-Base Titrations Learning Goal … …use Stoichiometry to calculate volumes and concentrations in a neutralization reaction …
Warm up 2-5-15 1. What is the molarity of a 500mL solution that contains 2.9 grams of hydrochloric acid, HCl? 2. What is the pH and pOH of that solution?

Warm up What is the molarity of a 500mL solution that contains 2.9 grams of hydrochloric acid, HCl? 2. What is the pH and pOH of that solution?
Topic: Titration Do Now:.

Topic: Titration Do Now:.
Chemistry Notes: Titrations Chemistry 2014-2015.  A titration is a lab procedure which uses a solution of known concentration to determine the concentration.

Chemistry Notes: Titrations Chemistry  A titration is a lab procedure which uses a solution of known concentration to determine the concentration.
Neutralization Chapter 21.

Neutralization Chapter 21.
Strong Acid-Base Titrations Chapter 17. Neutralization Reactions Review Generally, when solutions of an acid and a base are combined, the products are.

Strong Acid-Base Titrations Chapter 17. Neutralization Reactions Review Generally, when solutions of an acid and a base are combined, the products are.
1 And Acid/Base dilution Mr. Shields Regents Chemistry U15 L05.

1 And Acid/Base dilution Mr. Shields Regents Chemistry U15 L05.
Neutralization Reactions

Neutralization Reactions
ACIDS AND BASES Acid Base Titration A very accurate method to measure concentration. Acid + Base  Salt + Water H + + OH -  H 2 O Moles H + = Moles.

ACIDS AND BASES Acid Base Titration A very accurate method to measure concentration. Acid + Base  Salt + Water H + + OH -  H 2 O Moles H + = Moles.
Section 16.3 Titrations and Buffers 1.To know how to neutralize acids and bases (titration) Learning Goal.

Section 16.3 Titrations and Buffers 1.To know how to neutralize acids and bases (titration) Learning Goal.
 Brønsted-Lowry – proton donor  Arrhenius – acids produce H + ions in water  HCl  H + + Cl -  HCl, HBr, HI, H 2 SO 4, HC 2 H 3 O 2.

 Brønsted-Lowry – proton donor  Arrhenius – acids produce H + ions in water  HCl  H + + Cl -  HCl, HBr, HI, H 2 SO 4, HC 2 H 3 O 2.
Leave space between each step to add more information. 1.Write a balance chemical equation between the acid and the base. Remember it’s a double replacement.

Leave space between each step to add more information. 1.Write a balance chemical equation between the acid and the base. Remember it’s a double replacement.
What type of reaction? HCl + NaOH  H2O + NaCl

What type of reaction? HCl + NaOH  H2O + NaCl
Acid-Base Chemistry Arrhenius acid: Substance that dissolves in water and provides H + ions Arrhenius base: Substance that dissolves in water and provides.

Acid-Base Chemistry Arrhenius acid: Substance that dissolves in water and provides H + ions Arrhenius base: Substance that dissolves in water and provides.
Topic: Titration Do Now:. Acid-Base Titration A procedure used in order to determine the molarity of an acid or baseA procedure used in order to determine.

Topic: Titration Do Now:. Acid-Base Titration A procedure used in order to determine the molarity of an acid or baseA procedure used in order to determine.

Similar presentations

Ads by Google