Bronsted Lowry Acid Base. Bronsted and Lowry An ACID donates a proton (loses an H+) An ACID donates a proton (loses an H+) A BASE accepts a proton (gains.

Slides:

Advertisements

Similar presentations

UNIT IV: Tutorial 14 - Part II.

Advertisements

Chapter 16: Acids and bases

Acids and Bases Part 2. Classifying Acids and Bases Arrhenius Acid ◦ Increases hydrogen ions (H + ) in water ◦ Creates H 3 O + (hydronium) Base ◦ Increases.

The Arrhenius Theory of Acids and Bases Acids are substances which produce hydrogen ions H +, in solution. Bases are substances which produce hydroxide.

Anions are negative ions and some of them undergo hydrolysis when they are mixed with water. Here, we’ll examine these more closely.

Acids and Bases: Theory Arrhenius theory of acids Arrhenius definition of an acid: any compound that contains hydrogen and produces H + (H 3 O + when.

Acids & Bases Properties Acid-Base Theories Acid-Base Reactions.

Acid - Base Equilibria AP Chapter 16. Acids and Bases Arrhenius acids have properties that are due to the presence of the hydronium ion (H + ( aq )) They.

Acids & Bases Lesson 4 Relative Strengths of Acids and Bases.

Chapter 18 Acids, Bases, and Salts. Acids Acids Sour - lemons Sour - lemons Feel like water Feel like water React vigorously with metal React vigorously.

Acids & Bases. Properties of Acids & Bases  Acids Aqueous solutions of acids have a sour taste Turn blue litmus paper to red React with metals to produce.

Year 12 Chemistry. He classified all chemicals into three categories – acids, bases and salts He classified all chemicals into three categories – acids,

Chapter 17. Acids are substances that increase the concentration of hydrogen ions in solution. Bases are substances that increases the concentration of.

Chapter 16 Acids and Bases Properties Arrhenius Definitions Bronsted-Lowry Definitions.

Chapter 4 Krissy Kellock Analytical Chemistry 221.

8.2 Strong and Weak Acids and Bases

Chapter 14: Acids and Bases. Initial concepts of Acids and bases First, acids were recognized as substances with a sour taste, but this was a dangerous.

Acids and Bases Chapter 20 Lesson 2. Definitions Acids – produce H + Bases - produce OH - Acids – donate H + Bases – accept H + Acids – accept e - pair.

Chapter 10 Acids and Bases.

Chemistry 1011 Slot 51 Chemistry 1011 TOPIC Acids and Bases TEXT REFERENCE Masterton and Hurley Chapter 4.2 (Review), 13, 14.1, 15.1 (page 427), 21.2 (page589)

Acid-Base Equilibria Chapter 16. Revision Acids and bases change the colours of certain indicators. Acids and bases neutralize each other. Acids and bases.

Bronsted-Lowry acids and bases

Chapter 18 “Acids, Bases and Salts”

Acids and Bases. What are acids and bases? Lemons, grapefruit, vinegar, etc. taste sour because they contain acids. Acid in our stomach helps food digestion.

Bronsted-Lowry Acid – Base Reactions Chemistry. Bronsted – Lowry Acid Defined as a molecule or ion that is a hydrogen ion donor Defined as a molecule.

Working with Acid-Base Equilibria When a weak acid and a weak base are mixed, an equilibrium is always established. Example 2 Starting With Amphiprotic.

Acids and Bases Unit 12. Properties of an Acid  Sour taste  Turns litmus paper red (and responds uniquely to other indicators)  Reacts with:  Hydroxide.

Acids & Bases Lesson 2 Strong and Weak (Bases). Review of Bronsted- Lowry Acids.

Chapter 18 – Acids, Bases, and Salts. Arrhenius (ah-ray-nee- uhs) definition Acid – substance that dissociates in water to produce hydrogen ions (H +

Topic 08 – Acids/Bases 8.1 – Theories of Acids and Bases.

Acids and Bases: Introductory Concepts Arrhenius...acids increase the ______ when dissolved in H 2 O....bases increase the ______ when dissolved in H 2.

Ch # 14 Acids, Bases and Salts. Acid Properties sour taste change the color of litmus from blue to red. react with –metals such as zinc and magnesium.

Note Guide 10-2 Hydrogen Ions from water (water molecule highly polar) --A water molecule that loses a hydrogen ion becomes a negatively charged hydroxide.

Acid-Base Equilibria Chapter 16. Revision Acids and bases change the colours of certain indicators. Acids and bases neutralize each other. Acids and bases.

ACIDS AND BASES Questions may involve any of the following: description of acids and bases in terms of proton transfer calculations involving K w and pH.

(8.2) Weak Acids & Bases: Ionization Constants. Percent Ionization for Weak Acids Most weak acids ionize < 50% Percent ionization (p) General Weak Acid:

Acids and Bases. Acids, Bases and Equilibrium When an acid is dissolved in water, the H + ion (proton) produced by the acid combines with water to produce.

Bronsted-Lowry Acid Base Chemistry Just a few reminders.

Acids and Bases Chapter 14. Brønsted-Lowry Theory Brønsted-Lowry describes reactions of acids as involving the donation of a hydrogen ion (H + ) Brønsted-Lowry.

Unit 12 Weak Acids and Weak Bases. What makes a Weak Acid? Weak acids (covalently bonded H compounds) are ionized by water less than 100% HBrO + H 2 O.

Acids & Bases Chapter 15 & 16. Acids Have a sour taste Affect indicators React with bases to produce salt & water Conduct an electric current Examples.

CHAPTER 9 Acids & Bases General, Organic, & Biological Chemistry Janice Gorzynski Smith.

ACIDS AND BASES Chapter 18. Properties of Acids taste SOUR acids change litmus RED their aqueous (water) solutions CONTAIN HYDRONIUM (H 3 O + ) IONS react.

An Introduction to Organic Reactions and Their Mechanism Acids and Bases.

U2 S1 L4 Writing Bronsted-Lowry equations: predictions. P 562.

9.1 Introduction to Acids and Bases

Acids and Bases Bronsted Lowry Acids and Bases Autoionization of Water

CH 13 Acids and Bases.

Chapter 17 Acids and Bases.

The Nature of Acids and Bases - Acid Strength and the Acid Ionization Constant (Ka) Rachel Pietrow.

Unit 4: Equilibrium, Acids & Bases Part 2: Acids and Bases

Ionic Equilibrium in Solutions

Chap 14 Acids and Bases.

Unit: Acids, Bases, and Solutions

Acids and Bases Lesson 2 Strong and Weak Bases.

CHEM 121 Chapter 9 Winter 2014.

Chapter 19 Review “Acids, Bases, and Salts”

Acid/Base Equilibria Notes Part 1: The 3 Acid/Base Definitions, Hydronium, Conjugate Acid/Base Pairs & their Relative Strengths March 23, 2018.

Titration Curves.

A2 Chemistry: F325 – Equilibria, Energetics and Elements

Conjugate Acid - Base Pairs

Equilibria involving acids and bases

Unit 4: Equilibrium, Acids & Bases Part 2: Acids and Bases

Chemistry 1011 TOPIC TEXT REFERENCE Acids and Bases

ACIDS AND BASES: Strong and Weak.

Chapter 19 Review “Acids, Bases, and Salts”

The Nature of Acid-Base Equilibria

Review: H3PO4 is a polyprotic acid, meaning it has multiple protons to donate when dissociating with water. a. Write Bronsted-Lowry reactions for the.

ACIDS and BASES.

Chemistry 12 Unit 4: Acids, Bases & Salts

Presentation transcript:

Bronsted Lowry Acid Base

Bronsted and Lowry An ACID donates a proton (loses an H+) An ACID donates a proton (loses an H+) A BASE accepts a proton (gains an H+) A BASE accepts a proton (gains an H+)

Conjugate Acid Base Pairs When an acid loses its hydrogen, it becomes a base (as it is able to gain a hydrogen again) When an acid loses its hydrogen, it becomes a base (as it is able to gain a hydrogen again) This is known as a conjugate base This is known as a conjugate base

At the same time, when a base gains a hydrogen in a reaction, it becomes a conjugate acid At the same time, when a base gains a hydrogen in a reaction, it becomes a conjugate acid Weak acids are found on pages 8 and 9 in your data booklet. The conjugate base formula for each acid is directly right to the acid formula. Each conjugate is the result of a loss of 1 hydrogen. Weak acids are found on pages 8 and 9 in your data booklet. The conjugate base formula for each acid is directly right to the acid formula. Each conjugate is the result of a loss of 1 hydrogen.

It is important to note that acids and bases may be noted as salts (ionic compounds) It is important to note that acids and bases may be noted as salts (ionic compounds) When this occurs, you must dissociate the ions and allow the demonstration of the proton transfer (omit the spectator ions) When this occurs, you must dissociate the ions and allow the demonstration of the proton transfer (omit the spectator ions)

Example Potassium hydrogen sulfate and sodium acetate are mixed in aqueous solution Potassium hydrogen sulfate and sodium acetate are mixed in aqueous solution

Strong acids form Weak Bases A strong acid will have a conjugate base that is weak A strong acid will have a conjugate base that is weak Strong acids lose its proton easily (and therefore will not accept a hydrogen easily) Strong acids lose its proton easily (and therefore will not accept a hydrogen easily)

A weaker acid will have a stronger conjugate base A weaker acid will have a stronger conjugate base Weak acids hold their protons more (and therefore will easily accept a hydrogen) Weak acids hold their protons more (and therefore will easily accept a hydrogen)

Kw = KaKb Kw is the equilibrium constant for water (1.0 x ) Kw is the equilibrium constant for water (1.0 x ) Ka is the equilibrium constant for acids and can be found on page 8 and 9 in the data booklet Ka is the equilibrium constant for acids and can be found on page 8 and 9 in the data booklet Kb is the equilibrium constant for bases and will have to be calculated using Kw = KaKb Kb is the equilibrium constant for bases and will have to be calculated using Kw = KaKb

Acid Reactions HA + H2O  H3O+ + A-

Base Reactions

Amphiprotic Substances An amphiprotic substance is a chemical species that can donate or accept a proton An amphiprotic substance is a chemical species that can donate or accept a proton Substance must contain a hydrogen to donate Substance must contain a hydrogen to donate Substance must be able to accept a hydrogen (usually have a negative charge) Substance must be able to accept a hydrogen (usually have a negative charge)

Reactions Favor if the weak acid has a higher Ka than the conjugate acid in the same equation, the reaction will proceed in the forward direction and favor the products if the weak acid has a higher Ka than the conjugate acid in the same equation, the reaction will proceed in the forward direction and favor the products if the weak acid has a lower Ka than the conjugate acid, the reaction will proceed in the reverse direction and favor the reactants if the weak acid has a lower Ka than the conjugate acid, the reaction will proceed in the reverse direction and favor the reactants

Example Write the Bronsted-Lowry equation for the reaction between acetic acid and sodium sulfate. Label the conjugate acid base pairs and comment on whether the products or reactants are favored: Write the Bronsted-Lowry equation for the reaction between acetic acid and sodium sulfate. Label the conjugate acid base pairs and comment on whether the products or reactants are favored:

Example 2 Write the Bronsted-Lowry equation for the reaction between lactic acid and potassium hydrogen carbonate. Label the conjugate acid base pairs and comment on whether the products or reactants are favored: Write the Bronsted-Lowry equation for the reaction between lactic acid and potassium hydrogen carbonate. Label the conjugate acid base pairs and comment on whether the products or reactants are favored:

C 2 H 5 OCOOH(aq) + HCO 3 1- (aq)   C 2 H 5 OCOO 1- (aq) + H 2 CO 3 (aq) acidbaseconj. Baseconj. Acid K = [H 2 CO 3 (aq)][C 2 H 5 OCOO 1- (aq)] [C 2 H 5 OCOOH(aq)][HCO 3 1- (aq)] Favors products! Kacid = 1.4x10 4 Kconjacid = 4.5x10 -7