Which is the stronger acid? 1.HNO 2 2.HNO 3 Which is the stronger base? 1.NO 2 - 2.NO 3 -

Slides:

Advertisements

Similar presentations

Outline:3/9/07 è Chem. Dept. Seminar 4pm è 3 more lectures until Exam 2… è Chemistry Advising – 4pm Today: è More Chapter 18 Titrations.

Advertisements

Buffers and Acid/Base Titration

Buffers and Titrations

CHAPTER 15: APPLICATIONS OF AQUEOUS EQUILIBRIA Dr. Aimée Tomlinson Chem 1212.

Acid-Base Equilibria Common Ion Effect in Acids and Bases Buffer Solutions for Controlling pH Buffer Capacity pH-Titration Curves Acid-Base Titration Indicators.

Slide 1 of 45  Worked Examples Follow:. Slide 2 of 45.

Chapter 17: Additional Aspects of Acid-Base Equilibria

Lecture 9 Acid-Base Equilibria -I. Strong acids: HCl HBr HI HNO 3 H 2 SO 4 HClO 4 (HO) n E=O Weak acid (HO) n EO 2 Strong acid We titrate with strong.

Acid-Base Equilibria pH and pOH Relationship of Conjugate Pair acid-base strength. When acids or bases control pH:  determine K  predict pH When pH controls.

Prentice-Hall © 2007 General Chemistry: Chapter 17 Slide 1 of 45 Chapter 17: Additional Aspects of Acid-Base Equilibria CHEMISTRY Ninth Edition GENERAL.

Lecture 193/12/07. Sample (100 mL – 0.1 M) Titrant (0.2 M) Initial pH pH at equivalence point pH at 2X equivalence point X-axis at equivalence point Strong.

PK a and Acid Strength pK a = -log K a K a pK a Trends:

Acid-Base Reactions strong acid + strong base strong acid + weak base weak acid + strong base weak acid + weak base.

Outline:3/7/07 è Pick up CAPA 15 & 16 - outside è 4 more lectures until Exam 2… Today: è Chapter 18 Buffers Buffer calculations Titrations.

Acid-Base Equilibria pH and pOH Relationship of Conjugate Pair acid-base strength. When acids or bases control pH:  determine K  predict pH When pH controls.

pK a and Acid Strength pK a = -log K a K a pK a Trends:

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

Chapter 15 Acid–Base Equilibria. Chapter 15 Table of Contents Copyright © Cengage Learning. All rights reserved Solutions of Acids or Bases Containing.

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.

Titration. What is It? Acid and base combined together Graph of pH as a function of volume of titrant is called a titration curve.

 Calculate the pH of salt of weak acids.  Calculate the pH of salt of weak bases.  Define buffer, buffer ratio, and buffer capacity.  Calculate.

Chapter 16: Applications of Aqueous Equilibria Renee Y. Becker Valencia Community College 1.

Chapter 15 Buffers Titration pH Curves

JF Basic Chemistry Tutorial : Acids & Bases Shane Plunkett Acids and Bases Three Theories pH and pOH Titrations and Buffers Recommended.

Part 2 Chapter 17. Salt Solutions We will look at the cation and the anion separately, and then combine the result to determine whether the solution is.

Chapter 16 Notes1 Chapter 16 Aqueous Equilibria: Applications 1. neutralization reactions 2. common ion effect; buffers 3. titrations strong acid - strong.

Updates Assignment 06 is due Mon., March 12 (in class) Midterm 2 is Thurs., March 15 and will cover Chapters 16 & 17 –Huggins 10, 7-8pm –For conflicts:

Chapter 15 Applications of Aqueous Equilibria Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1.

Salts in Solution Mrs. Coyle. Solutions of Salts -Strong Acids and Strong Bases Produce a neutral solution (pH=7) Example: HCl + NaOH  NaCl + H 2 O Strong.

Indicators for Acid-Base Titrations (Sec. 9-6). transition range needs to match the endpoint pH as closely as possible in order to minimize titration.

REACH will present significant challenges to all of us

Ch. 17 – Other Aspects of Equilibrium The concept of equilibrium may be used to describe the solubility of salts and the buffering action of a solution.

Buffers and Acid/Base Titration. Buffered Solutions  A solution that resists a change in pH when either hydroxide ions or protons are added.  Buffered.

Chem. 31 – 4/29 Lecture. Announcements Last collected homework (3.1) due today Last quiz today Today’s Lecture –Chapter 9: Polyprotic Acids Dissolution.

Acid/Base Chemistry Part II CHEM 2124 – General Chemistry II Alfred State College Professor Bensley.

Acid/Base Titration Buffers. Buffers A mixture composed of a weak acid and its conjugate base (acidic buffer) OR weak base and its conjugate acid (basic.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Chemistry FIFTH EDITION by Steven S. Zumdahl University of Illinois Chapter 15 Applications.

Buffers. What Are They? Solutions that resist changes in pH with addition of small amounts of acid or base Require two species: an acid to react with.

Titration What is It? Acid and base combined together Graph of pH as a function of volume of titrant is called a titration curve.

Chapter 19 Buffers and Titrations. The Common Ion Effect & Buffer Solutions 2 ______________- solutions in which the same ion is produced by two different.

Acid – Base Equilibria Buffer Solutions: –Question: Was the ICE Problem set up needed? –Answer: No. The assumption of x

8.3 Bases Similar to weak acids, weak bases react with water to a solution of ions at equilibrium. The general equation is: B(aq) + H2O(l)  HB+(aq) +

Tahani Alshehri 2009 Preparation of the buffer solutions, titration of amino acid and there buffering capacity Tahani Alshehri

Chemical calculations II

Acid-Base Equilibria pH and pOH Relationship of Conjugate Pair acid-base strength. When acids or bases control pH:  determine K  predict pH When pH controls.

1081. y = 1.0 x M [OH - ] = 1.0 x M 1082.

Applications of Acid-Base Equilibria

Aspects of Aqueous Equilibria. Aspects of Aqueous Equilibria: The Common Ion Effect Recall that salts like sodium acetate are strong electrolytes NaC.

WOLPA/AP CHEMISTRY/CDO Chapter 18 Acid-Base Equilibria.

Strength of Acids Strength of an acid is measured by the extent it reacts with water to form hydronium ions (H 3 O + ). Strong acids ionize ~100% so pH.

Titration Curves I. Strong Acid + Strong Base 0.1 M HCl 0.1 M NaOH

Unit 6 - Chpt 15 - Acid/Base Equilibria Common Ion Effect Buffers / Buffer Capacity Titration / pH curves Acid / Base Indicators HW set1: Chpt 15 - pg.

Chapter 15 Applications of Aqueous Equilibria

Chapter 15 Acid–Base Equilibria. Section 15.2 Atomic MassesBuffered Solutions Return to TOC Copyright © Cengage Learning. All rights reserved 2 Key Points.

BUFFERS SUROVIEC SPRING 2014 Chapter I. Buffer Solutions A. Buffer is a solution that resists a change in pH with the addition of small amounts.

Common Ion Effect, Buffers, and Titration March 4/6, 2015.

BUFFERS Mixture of an acid and its conjugate base. Buffer solution  resists change in pH when acids or bases are added or when dilution occurs. Mix: A.

[17.2] Buffers. Buffer: a solution that resists a change in pH The best buffer has large and equal amounts of proton donors (weak acid to neutralize OH.

Obj. finish 17.2, ) The pH range is the range of pH values over which a buffer system works effectively. 2.) It is best to choose an acid with.

Equilibrium in Acid-Base Systems 16.4a: Interpreting pH curves.

Sections Acid-Base Reactions Buffer Solutions Bill Vining SUNY Oneonta.

HL Acids and Bases. Strength of Acids/Bases Strong Acids (100% ionized or dissociated) – HCl – HBr – HI – HNO 3 – H 2 SO 4 – HClO 4 – HClO 3 Strong bases.

Titration and Buffers Buffers Buffers are substances that are able to absorb and release H+ ions keeping the pH in a solution constant. – EX: H 3 O + +

Which is the stronger acid? 1.HNO 2 2.HNO 3. Which is the stronger base? 1.NO NO 3 -

Acid-Base Titrations End point and equivalence point

Acids and bases.

Chapter 17 Additional Aspects of Aqueous Equilibria

Acid-Base Equilibria pH and pOH

Titration Basics Titration = addition of a measurable volume of a known solution (titrant) to an unknown solution until it is just consumed Use the stoichiometry.

Presentation transcript:

Which is the stronger acid? 1.HNO 2 2.HNO 3

Which is the stronger base? 1.NO NO 3 -

Acid-Base Reactions strong acid + strong base strong acid + weak base weak acid + strong base weak acid + weak base

Extent of Weak Acid-Weak Base Reactions

pK a and Acid Strength pK a = -log K a K a pK a Trends:

Buffers

How Buffers Minimize pH Changes NH 4 + /NH 3 buffer If an acid is added: If a base is added:

What controls pH of a buffer?

Buffer pH Two cases: 1.When the acid and base of interest are in bulk and control the pH 2.When other acids and bases are in bulk and the acid/base state of the species of interest is controlled by the pH (ex: indicators)

1a. Buffer pH What is the pH of a solution with [H 2 CO 3 ] = 0.25 M and [HCO 3 - ] = 0.25 M?

1b. Buffer pH What is the pH of a solution with [H 2 CO 3 ] = 0.25 M and [HCO 3 - ] = 0.11 M?

Review Buffer components pH of a buffer solution -- Question: if dilute a buffer, does the pH change? Preparing a buffer by “direct addition” Now: Preparing a buffer by an acid-base reaction

Preparing Buffer Solutions Make a buffer of pH = 3.6

Preparing Buffer Solutions by Reaction Make a buffer of pH = 5.00 using sodium acetate and 1.0 M HCl

Preparing Buffer Solutions by Reaction Make a buffer of pH = 5.00 using sodium acetate and 1.0 M HCl

Alpha Plots

pH Titration Curves Strong Acid – Strong Base Strong Base – Strong Acid

pH Titration Curves Weak Acid – Strong Base: Finding K a

pH Titration Curves Weak Acid – Strong Base: Finding K a

pH Titration Curves Strong Acid – Weak Base: Finding K b

Polyprotic Acids H 2 CO 3 HCO 3 - CO 3 2- K a1 = 4.2 x K a2 = 4.8 x What is the pH of a 0.10 M solution of H 2 CO 3 ? What is [CO 3 2- ] in this solution?

Polyprotic Acids H 2 CO 3 HCO 3 - CO 3 2- K a1 = 4.2 x K a2 = 4.8 x

Polyprotic pH Titration Curves

Amino Acids

When pH Controls Acid-Base State: Amino Acids Situations where an acid-base species is a minor component in a solution where other things control the pH. Henderson-Hasselbalch and Alpha plots.

When pH Controls Acid-Base State: Amino Acids Situations where an acid-base species is a minor component in a solution where other things control the pH. pH = 0.00 pH = 2.34

pH = 0.00pH = 2.34 pH = 7.00 pH = 9.60 pH = 13.00

Alpha Plots