Presentation is loading. Please wait.

Presentation is loading. Please wait.

© University of South Carolina Board of Trustees Calculate the pH in the titration of 100.0 mL of 0.200 M HCl with 0.400 M NaOH after a) 0.00 mL strong.

Published byBarnard Knight Modified over 9 years ago

Similar presentations

Presentation on theme: "© University of South Carolina Board of Trustees Calculate the pH in the titration of 100.0 mL of 0.200 M HCl with 0.400 M NaOH after a) 0.00 mL strong."— Presentation transcript:

1 © University of South Carolina Board of Trustees Calculate the pH in the titration of 100.0 mL of 0.200 M HCl with 0.400 M NaOH after a) 0.00 mL strong acid problem pH = 0.7 b) 25.00 mL strong acid problem pH = 1.1 c) 50.00 mL water + spectators pH = 7.0 d) 75.00 mL strong base problem pH =12.8 of base are added. Calculating a Titration Curve: Strong Acid + Strong Base

2 © University of South Carolina Board of Trustees Titration of a Strong Acid with Strong Base pH = 7.0 Spectator Ions

3 © University of South Carolina Board of Trustees Chapt. 16 More Acids and Bases Sec. 4-5 Titration: Weak Acid + Strong Base ( or weak base + strong acid)

4 © University of South Carolina Board of Trustees Titration of a Weak Acid with Strong Base pH > 7.0 Equivalence Point

5 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 -5 ) with 0.500 M NaOH after a) 0.00 mL weak acid problem pH = 2.72 a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL c) 10.00 mL d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

6 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 −5 ) with 0.500 M NaOH after b) 5.00 mL a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL c) 10.00 mL d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

7 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 −5 ) with 0.500 M NaOH after b) 5.00 mL buffer problem a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem c) 10.00 mL d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

8 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 −5 ) with 0.500 M NaOH after b) 5.00 mL buffer problem pH = 4.74 a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem pH = 4.74 c) 10.00 mL d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

9 © University of South Carolina Board of Trustees Weak Acid Titration Curve a b

10 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 −5 ) with 0.500 M NaOH after c) 10.00 mL a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem pH = 4.74 c) 10.00 mL d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

11 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 −5 ) with 0.500 M NaOH after c) 10.00 mL weak base problem a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem pH = 4.74 c) 10.00 mL weak base problem d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

12 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 −5 ) with 0.500 M NaOH after c) 10.00 mL weak base problem pH = 8.95 a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem pH = 4.74 c) 10.00 mL weak base problem pH = 8.95 d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

13 © University of South Carolina Board of Trustees Weak Acid Titration Curve a b c pH = 8.95 Equivalence Point

14 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 -5 ) with 0.500 M NaOH after d) 15.00 mL a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem pH = 4.74 c) 10.00 mL weak base problem pH = 8.95 d) 15.00 mL of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

15 © University of South Carolina Board of Trustees Chapt. 15 Flashback Sec. 7 Mixtures of Acids (Bases)

16 © University of South Carolina Board of Trustees If an acid (base) is much weaker ( K a ~100 x smaller) than another acid (base) in the problem, ignore it. What is the pH of a solution that is 0.100 M in HCl and 0.050 M in HF? What is the pH of a solution that is 0.100 M in HOCl and 0.050 M in HF? Mixtures of Acids (Bases) strong acid weak acid K a = 3.0x10 −8 K a = 3.5x10 −4 pK a = 7.52 pK a = 3.46 (reverse)

17 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 -5 ) with 0.500 M NaOH after d) 15.00 mL strong base problem a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem pH = 4.74 c) 10.00 mL weak base problem pH = 8.95 d) 15.00 mL strong base problem of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

18 © University of South Carolina Board of Trustees Calculate the pH in the titration of 25.00 mL of 0.200 M acetic acid ( K a = 1.8 x10 -5 ) with 0.500 M NaOH after d) 15.00 mL strong base problem pH =12.8 a) 0.00 mL weak acid problem pH = 2.72 b) 5.00 mL buffer problem pH = 4.74 c) 10.00 mL weak base problem pH = 8.95 d) 15.00 mL strong base problem pH =12.8 of base are added. Calculating a Titration Curve: Weak Acid + Strong Base

19 © University of South Carolina Board of Trustees Titration of a Weak Acid With Strong Base a b c d

20 © University of South Carolina Board of Trustees Student Example Calculate the pH in the titration of 12.00 mL of 0.100 M HOCl ( K a = 3.0 x10 −8 ) with 0.200 M NaOH after 4.00 mL of base have been added.

21 © University of South Carolina Board of Trustees Chapt. 16 Sec. 6 Indicators

22 © University of South Carolina Board of Trustees pH Indicators acid solution unknown concentration strong base solution known concentration indicator dye changes color record volume of base

23 © University of South Carolina Board of Trustees pH Indicators Weak acid/base conjugate pair Acid and base forms are different colors Small amount used. Little affect on pH.

24 © University of South Carolina Board of Trustees Color Changes Near pK In In − HIn + H 2 O  In − + H 3 O + In − Look at [In − ]/[HIn] when pH = p K a - 1 pH = p K a pH = p K a + 1 10% colored 50% colored 90% colored

25 © University of South Carolina Board of Trustees Strong-Acid / Strong-Base Titration Equivalence Point: pH and color change suddenly color change KaKa

26 © University of South Carolina Board of Trustees Color Change with 1 Drop

27 © University of South Carolina Board of Trustees Want p K a Indicator ~ pH of Equiv. Point

28 © University of South Carolina Board of Trustees pH Indicators Weak acid/base conjugate pair Acid and base forms are different colors Small amount used. Little affect on pH.

29 © University of South Carolina Board of Trustees Titration - Indicator Detection Equivalence Point: pH and color change suddenly color change KaKa

Download ppt "© University of South Carolina Board of Trustees Calculate the pH in the titration of 100.0 mL of 0.200 M HCl with 0.400 M NaOH after a) 0.00 mL strong."

Similar presentations

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

III. Titration (p ) Ch. 15 & 16 - Acids & Bases.
AQUEOUS EQUILIBRIA AP Chapter 17.

AQUEOUS EQUILIBRIA AP Chapter 17.
Acid-Base Titrations progressive addition of one reactant to another in measured volumes until an endpoint is reached. equivalence point (mL) is when.

Acid-Base Titrations progressive addition of one reactant to another in measured volumes until an endpoint is reached. equivalence point (mL) is when.
Slide 1 of 45  Worked Examples Follow:. Slide 2 of 45.

Slide 1 of 45  Worked Examples Follow:. Slide 2 of 45.
Chem. 31 – 5/6 Lecture. Announcements Lab Stuff –Reminder that resubmissions must have original report attached –IC and Formal Lab Reports due 5/11 Today’s.

Chem. 31 – 5/6 Lecture. Announcements Lab Stuff –Reminder that resubmissions must have original report attached –IC and Formal Lab Reports due 5/11 Today’s.
Lecture 203/13/06. Titration Why use? Equivalence point vs. Endpoint Math?

Lecture 203/13/06. Titration Why use? Equivalence point vs. Endpoint Math?
Lecture 183/1/06. What is a buffer? pH of a buffer system What is the pH of a buffer that is 0.12 M lactic acid HC 3 H 5 O 3 and 0.1 M sodium lactate?

Lecture 183/1/06. What is a buffer? pH of a buffer system What is the pH of a buffer that is 0.12 M lactic acid HC 3 H 5 O 3 and 0.1 M sodium lactate?
Chapter 12 Krissy Kellock Analytical Chemistry 221.

Chapter 12 Krissy Kellock Analytical Chemistry 221.
Lecture 193/14/05 Spring Break Quiz Seminar today.

Lecture 193/14/05 Spring Break Quiz Seminar today.
Lecture 172/28/07 LECTURE TONIGHT. Titration Curve Why do you use one? Equivalence point vs. Endpoint pH vs. acid/base added.

Lecture 172/28/07 LECTURE TONIGHT. Titration Curve Why do you use one? Equivalence point vs. Endpoint pH vs. acid/base added.
Lecture 223/17/06 Research Club Meeting  Today at 1:30  TSB 155  Free pizza Research Colloquium  April 4  Deadline March 27.

Lecture 223/17/06 Research Club Meeting  Today at 1:30  TSB 155  Free pizza Research Colloquium  April 4  Deadline March 27.
Lecture 23 10/28/05. 50 mL of 0.02 M KOH with 0.1 M HBr Construct curve from 4 points Initial pH X = 0 mL, Y = ? Equivalence point X = V eq, Y = 7 Before.

Lecture 23 10/28/ mL of 0.02 M KOH with 0.1 M HBr Construct curve from 4 points Initial pH X = 0 mL, Y = ? Equivalence point X = V eq, Y = 7 Before.
Calculate the pH of a solution that is 0.20 M in NaCH 3 COO and 0.10 M in CH 3 COOH. 1234567891011121314151617181920 2122232425262728293031323334353637383940.

Calculate the pH of a solution that is 0.20 M in NaCH 3 COO and 0.10 M in CH 3 COOH
Lecture 183/4/05 Spring Break QUIZ. Quiz 6 1. What is the pH of a buffer solution containing 0.3 M HNO 2 and 0.25 M NaNO 2 ? K a (HNO 2 ) = 4.5 x 10 -4.

Lecture 183/4/05 Spring Break QUIZ. Quiz 6 1. What is the pH of a buffer solution containing 0.3 M HNO 2 and 0.25 M NaNO 2 ? K a (HNO 2 ) = 4.5 x
Titrations of Weak Acids and Weak Bases Chapter 17.

Titrations of Weak Acids and Weak Bases Chapter 17.
213 PHC. Indicators  Describe the indicator theory.  Select a suitable indicator for a particular reaction.  Explain the different stages of strong.

213 PHC. Indicators  Describe the indicator theory.  Select a suitable indicator for a particular reaction.  Explain the different stages of strong.
Chapter 16 Notes1 Chapter 16 Aqueous Equilibria: Applications 1. neutralization reactions: K large, ~100% completion due to formation of water; salts can.

Chapter 16 Notes1 Chapter 16 Aqueous Equilibria: Applications 1. neutralization reactions: K large, ~100% completion due to formation of water; salts can.
Procedure for calculating pH of a titration Volume of titrant needed is based on amount of analyte.

Procedure for calculating pH of a titration Volume of titrant needed is based on amount of analyte.
Acid/Base Titrations. Titrations Titration Curve – always calculate equivalent point first Strong Acid/Strong Base Regions that require “different” calculations.

Acid/Base Titrations. Titrations Titration Curve – always calculate equivalent point first Strong Acid/Strong Base Regions that require “different” calculations.
ANALYTICAL CHEMISTRY CHEM 3811 CHAPTER 10 DR. AUGUSTINE OFORI AGYEMAN Assistant professor of chemistry Department of natural sciences Clayton state university.

ANALYTICAL CHEMISTRY CHEM 3811 CHAPTER 10 DR. AUGUSTINE OFORI AGYEMAN Assistant professor of chemistry Department of natural sciences Clayton state university.

Similar presentations

Ads by Google