Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byPaulina Wiggins Modified over 9 years ago

Similar presentations

Presentation on theme: "Acid/Base Chemistry Part II CHEM 2124 – General Chemistry II Alfred State College Professor Bensley."— Presentation transcript:

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

2 Learning Objectives Write the chemical equation for a weak acid undergoing acid ionization in aqueous solution. Define acid dissociation constant. Determine K a from a solution pH. Calculate concentrations of species in a weak acid solution using K a. Write the hydrolysis reaction of an ion to form an acidic solution.

3 Learning Objectives Recognize common acid-base reactions. Predict whether a salt solution is acidic, basic, or neutral. Calculate concentrations of acid or base solutions through titrations. Define buffer.

4 Learning Objectives Describe the pH change of a buffer solution with the addition of an acid or a base. Calculate the pH of a buffer from given volumes of solution. Calculate the pH of a buffer when a strong acid or a strong base is added. Learn and apply the Henderson- Hasselbalch equation.

5 Acid/Base Chemistry – Part II A. Equilibrium and Acid Dissociation Constants

6 B. The relationship between [H 3 O + ], pH, and K a [H 3 O + ] = √K a C 0 pH = ½ pK a – ½ log C 0 Acid/Base Chemistry – Part II

7 1. Neutralization reaction C. Common Acid/Base Reactions 2. Net Ionic Reaction of Neutralization reactions: 3. Bicarbonate Base reactions D. The Acidity and Basicity of Salt Solutions NaCl Na + from NaOH strong base Cl − from HCl strong acid NaHCO 3 Na + from NaOH strong base HCO 3 − from H 2 CO 3 weak acid

8 NH 4 Cl NH 4 + from NH 3 weak base Cl − from HCl strong acid

9 E. Buffers A buffer is a solution whose pH changes very little when acid or base is added. Acid/Base Chemistry – Part II

10 F. Calculating the pH of a Buffer Henderson-Hasselbalch Equation pH = pK a + log ([A - ]/[HA]) pH = pK a + log C s – log C a

11

12

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

Similar presentations

Go over Ch 20-21 Test Summary of this week Questions over the reading Discussion / explanation Homework.

Go over Ch Test Summary of this week Questions over the reading Discussion / explanation Homework.
HSC Chemistry – Acidic Environment R Slider. * The pH of a salt depends upon the relative strength of the ions that make up the salt * Very few salts.

HSC Chemistry – Acidic Environment R Slider. * The pH of a salt depends upon the relative strength of the ions that make up the salt * Very few salts.
Applications of aqueous equilibria Neutralization Common-Ion effect Buffers Titration curves Solubility and K sp.

Applications of aqueous equilibria Neutralization Common-Ion effect Buffers Titration curves Solubility and K sp.
Buffer This. There are two common kinds of buffer solutions: 1Solutions made from a weak acid plus a soluble ionic salt of the weak acid. 2Solutions made.

Buffer This. There are two common kinds of buffer solutions: 1Solutions made from a weak acid plus a soluble ionic salt of the weak acid. 2Solutions made.
CHAPTER 15: APPLICATIONS OF AQUEOUS EQUILIBRIA Dr. Aimée Tomlinson Chem 1212.

CHAPTER 15: APPLICATIONS OF AQUEOUS EQUILIBRIA Dr. Aimée Tomlinson Chem 1212.
Chapter 16: Aqueous Ionic Equilibria Common Ion Effect Buffer Solutions Titrations Solubility Precipitation Complex Ion Equilibria.

Chapter 16: Aqueous Ionic Equilibria Common Ion Effect Buffer Solutions Titrations Solubility Precipitation Complex Ion Equilibria.
1 Additional Aqueous Equilibria Chapter 17 Lawrence J. Henderson 1878-1942. Discovered how acid-base equilibria are maintained in nature by carbonic acid/

1 Additional Aqueous Equilibria Chapter 17 Lawrence J. Henderson Discovered how acid-base equilibria are maintained in nature by carbonic acid/
Chapter 17: Additional Aspects of Acid-Base Equilibria

Chapter 17: Additional Aspects of Acid-Base Equilibria
Reactions of Acids & Bases

Reactions of Acids & Bases
Acid-Base Reactions strong acid + strong base strong acid + weak base weak acid + strong base weak acid + weak base.

Acid-Base Reactions strong acid + strong base strong acid + weak base weak acid + strong base weak acid + weak base.
A CIDS AND B ASES II IB C HEMISTRY G R.12 Topic 18 1 Chem2_Dr. Dura.

A CIDS AND B ASES II IB C HEMISTRY G R.12 Topic 18 1 Chem2_Dr. Dura.
Aqueous Equilibria © 2009, Prentice-Hall, Inc. The Common-Ion Effect Consider a solution of acetic acid: If acetate ion is added to the solution, Le Châtelier.

Aqueous Equilibria © 2009, Prentice-Hall, Inc. The Common-Ion Effect Consider a solution of acetic acid: If acetate ion is added to the solution, Le Châtelier.
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.
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.
18 Acid-Base Equilibria 1 18 Additional Aspects of Acid – Base Equilibria Common ion effect solutions containing acids, bases, salts, solvent Buffer solutions.

18 Acid-Base Equilibria 1 18 Additional Aspects of Acid – Base Equilibria Common ion effect solutions containing acids, bases, salts, solvent Buffer solutions.
CHM 112 Summer 2007 M. Prushan Acid-Base Equilibria and Solubility Equilibria Chapter 16.

CHM 112 Summer 2007 M. Prushan Acid-Base Equilibria and Solubility Equilibria Chapter 16.
Chapter 16: Applications of Aqueous Equilibria Renee Y. Becker Valencia Community College 1.

Chapter 16: Applications of Aqueous Equilibria Renee Y. Becker Valencia Community College 1.
Which is the stronger acid? 1.HNO 2 2.HNO 3 Which is the stronger base? 1.NO 2 - 2.NO 3 -

Which is the stronger acid? 1.HNO 2 2.HNO 3 Which is the stronger base? 1.NO NO 3 -
Chemical calculations used in medicine part 2 Pavla Balínová.

Chemical calculations used in medicine part 2 Pavla Balínová.

Similar presentations

Ads by Google