Acids and Bases. Chapter 16

Similar documents
CHAPTERS 15 FAKE TEST QUESTIONS. 1. According to the Brønsted Lowry definition, which species can function both as an acid and as a base?

CHAPTER 16: ACIDS AND BASES

Acid-Base (Proton-Transfer) Reactions

Q.1 Classify the following according to Lewis theory and Brønsted-Lowry theory.

Chapter 13 & 14 Practice Exam

UNIT (6) ACIDS AND BASES

Q.1 Classify the following according to Lewis theory and Brønsted-Lowry theory.

Q1: What is the ph Scale? Q6: As acids become more acidic, their ph values

CHM1 Review for Exam 12

Sketch the model representation of the first step in the dissociation of water. H 2. O (l) H + (aq) + OH- (aq) + H 2. OH - (aq) + H 3 O+ (aq)

Chapter 17. How are acids different from bases? Acid Physical properties. Base. Explaining the difference in properties of acids and bases

Chapter 16: Acid-Base and Solubility Equilibria: Reactions in Soil and Water

1. Read P , P & P ; P. 375 # 1-11 & P. 389 # 1,7,9,12,15; P. 436 #1, 7, 8, 11

Titrations. Acid-Base Indicators and Titration Curves. Shapes of Titration Curves. A titration curve is a graphical history of a titration

Name period Unit 9: acid/base equilibrium

CHEM 1212 Test II. MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Note: (H 3 O + = hydronium ion = H + = proton) Example: HS - + H 2 O H 3 O + + S 2-

I N V E S T I C E D O R O Z V O J E V Z D Ě L Á V Á N Í CHEMICAL REACTIONS

Acids and Bases: A Brief Review

Chapter 19: Acids and Bases Homework Packet (50 pts) Name: Score: / 50

QUESTION (2012:3) (a) (i) Complete the table below showing the conjugate acids and bases. CO 3 H 2 O OH HCN CN -

Chapter 14: Acids and Bases

Chapter 16 Acid-Base Equilibria

Since we will be dealing with aqueous acid and base solution, first we must examine the behavior of water.

p3 Recognizing Acid/Base Properties when p11 Recognizing Basic versus Nonbasic

1. What do you think is the definition of an acid? Of a base?

TOPIC 11: Acids and Bases

Chemical Reactions in Water Ron Robertson

Acid/base Definitions. Acid/Base Definitions. Acid / Base Chemistry. Acid/Base Definitions. Identifying Acids and Bases

Acid/Base Definition. Acid/Base Reactions. Major vs. Minor Species. Terms/Items you Need to Know. you need to memorize these!!

NH 3 + H 2 O + OH - NH 4. Acid-Base Concepts -- Chapter 15 + H + Conjugate Acid-Base Pairs: - H + base. acid

Auto-ionization of Water

Notes on Unit 4 Acids and Bases

Name: Class: Date: 2 4 (aq)

Write the acid-base equilibria connecting all components in the aqueous solution. Now list all of the species present.

ph: Measurement and Uses

Chapter 17. The best buffer choice for ph 7 is NaH 2 PO 4 /Na 2 HPO 4. 19)

Acids and Bases. An Introduction. David A Katz Department of Chemistry Pima Community College, Tucson, AZ, USA

Review for Solving ph Problems:

Aqueous Solutions. Water is the dissolving medium, or solvent. Some Properties of Water. A Solute. Types of Chemical Reactions.

3 The Preparation of Buffers at Desired ph

Chapter 14 - Acids and Bases

Chapter 6. Solution, Acids and Bases

6) Which compound is manufactured in larger quantities in the U.S. than any other industrial chemical?

Chem101: General Chemistry Lecture 9 Acids and Bases

ACIDS AND BASES SAFETY PRECAUTIONS

Equilibrium Constants The following equilibrium constants will be useful for some of the problems.

4. Acid Base Chemistry

Acids and Bases HW PSI Chemistry

CHAPTER 18 ACID-BASE EQUILIBRIA

3/6/2014. Chapter 15. Acids and Bases. Stomach Acid and Heartburn GERD. Curing Heartburn. Common Acids. Properties of Acids. Lecture Presentation

Topic 18 Acids and Bases Exercises

Stoichiometry and Aqueous Reactions (Chapter 4)

Ch 15: Acids and Bases

Copyright 2009 by Pearson Education, Inc. Upper Saddle River, New Jersey All rights reserved.

ACID-BASE REACTIONS/ THE PH CONCEPT.

Acids and Bases CHAPTER 12. Opening Essay

Suggested Problems: p #58, 59, 65, 69, 74, 80, 85, 86, 90, 92, 93, 98, 99

Unit Two: Acids and Bases

An acid is a substance that produces H + (H 3 O + ) Ions in aqueous solution. A base is a substance that produces OH - ions in aqueous solution.

Tutorial 4 SOLUTION STOICHIOMETRY. Solution stoichiometry calculations involve chemical reactions taking place in solution.

Topic 5. Acid and Bases

Balance the following equation: KClO 3 + C 12 H 22 O 11 KCl + CO 2 + H 2 O

Volumetric Analysis. Lecture 5 Experiment 9 in Beran page 109 Prelab = Page 115

Acid-Base Equilibrium

Electrical Conductivity of Aqueous Solutions

Formulas, Equations and Moles

Chemistry 52. Reacts with active metals to produce hydrogen gas. Have a slippery, soapy feeling. React with carbonates to produce CO 2

Properties of Aqueous Solutions of Acids and Bases. CHAPTER 10 Acids, Bases and Salts. Properties of Aqueous Solutions of Acids and Bases

Topic 8 Acids and bases 6 hours

Chemistry 106 Fall 2007 Exam 3 1. Which one of the following salts will form a neutral solution on dissolving in water?

Chemistry Unit 2 Acids and Bases

Answer Key, Problem Set 5 (With explanations)--complete

1. When the following equation is balanced, the coefficient of Al is. Al (s) + H 2 O (l)? Al(OH) 3 (s) + H 2 (g)

Acids, Bases, and ph

CHEMISTRY 101 EXAM 3 (FORM B) DR. SIMON NORTH

Experiment 18: ph Measurements of Common Substances. Experiment 17: Reactions of Acids with Common Substances

Chemistry 51 Chapter 8 TYPES OF SOLUTIONS. A solution is a homogeneous mixture of two substances: a solute and a solvent.

Chapter 9 Lecture Notes: Acids, Bases and Equilibrium

Acid-Base Chemistry. Brønsted-Lowry Acids & Bases

Worksheet 23 Strong Acid/Strong Base Titrations

stoichiometry = the numerical relationships between chemical amounts in a reaction.

Chapter 15 Acids and Bases. Fu-Yin Hsu

6 Reactions in Aqueous Solutions

Liquid phase. Balance equation Moles A Stoic. coefficient. Aqueous phase

Acid-Base Titrations. Setup for a Typical Titration. Titration 1

Ch 8.5 Solution Concentration Units % (m/m or w/w) = mass of solute x 100 total mass of solution mass of solution = mass solute + mass solvent

Aqueous Ions and Reactions

Calculating Atoms, Ions, or Molecules Using Moles

Definition The property of exhibiting the qualities of a base

Common Ion Effects. CH 3 CO 2 (aq) + Na + (aq)

Properties of Acids and Bases

AP FREE RESPONSE QUESTIONS ACIDS/BASES

Solution a homogeneous mixture = A solvent + solute(s) Aqueous solution water is the solvent

Chemical Equations. Chemical Equations. Chemical reactions describe processes involving chemical change

Practical Lesson No 4 TITRATIONS

Chemical Calculations

Acid 7 Base. 1. Describe two things hydrochloric acid does in your body system. 2. What does sodium hydrogencarbonate do in your body system?

Chapter 8, Acid-base equilibria

Transcription:

Acids and Bases Chapter 16

The Arrhenius Model An acid is any substance that produces hydrogen ions, H +, in an aqueous solution. Example: when hydrogen chloride gas is dissolved in water, the following ions are produced. HCl (g) H + (aq) + Cl - (aq) A base is an substance that produces hydroxide ions, OH -, in an solution. Example: When solid sodium hydroxide is dissolved in water the following ions are produced. NaOH (s) Na + (aq) + OH - (aq) 16-2

Another Theory: Brønsted-Lowry Model The Arrhenius model is limiting in its classification of acids and bases, suggesting there is only one kind of acid or base. A more general definition was suggested by a Danish chemist named Johannes Brønsted and an English chemist named Thomas Lowry. The Brønsted-Lowry Model states: An acid is a proton (H + ) donor A base is a proton (H + ) acceptor. 16-3

Brønsted-Lowry Model Let s look at a general reaction for an acid (HA) in water. HA (aq) + H 2 O (l) H 3 O + (aq) + A - (aq) In the reaction which reactant was the proton donor (acid)? Which reactant was the proton acceptor (base)? If we look at the products, we see that now we have role reversal. Which product is a proton donor? Which product is a proton acceptor? In this case, the proton donor in the products side is known as the conjugate acid, and the proton acceptor is known as the conjugate base. 16-4

Practice In the following reactions identify the acid, base, conjugate acid, and conjugate base. 1. HF (aq) + H 2 O (l) H 3 O + (aq) + F - (aq) 2. H 2 S (aq) + H 2 O (l) H 3 O + (aq) + HS - (aq) 3. NH 3(aq) + H 2 O (aq) NH 4 + (aq) + OH - (aq) 4. HSO 4- + C 2 O 4 2- SO 4 2- + HC 2 O 4-5. Write the conjugate bases for the following acids. a. HClO 4 b. HNO 3 c. HC 2 H 3 O 2 16-5

16.2 Acid Strength When we put an acid or base in water, the compound breaks apart into it s respective ions is called dissociation. The degree which a compound dissociates in water determines the strength of the acid or base. Strong acids and bases are substances that are completely ionized, or completely dissociated in solution. Weak acids and bases are substances that only ionize or dissociate partially in solution. 16-6

Figure 16.1: Representation of the behavior of acids of different strengths in aqueous solution. 16-7

Acids vs Conjugate Bases Strong Acids Acid Strength Increases Weak Acids Acid Conjugate Base HClO 4 ClO - 4 HI I - HBr Br - HCl Cl - H 2 SO 4 HSO - 4 HNO 3 NO - 3 H 3 O + H 2 O HSO - 4 SO 2-4 HF F - HNO 2 NO - 2 HCOOH HCOO - CH 3 COOH CH 3 COO - NH + 4 NH 3 HCN CN - H 2 O OH - Weak Bases Base Strength Increases Strong Bases NH 3 NH 2-16-8

16.3 Water as an Acid and a Base A substance is said to be amphoteric if it can behave either as an acid or as a base. Water is the most common amphoteric substance. Let s look at the ionization of 2 water molecules. H 2 O (l) + H 2 O (l) H 3 O + (aq) + OH - (aq) In this reaction one water molecule acts as an acid, and one acts as a base. At 25 C the concentrations of these ions have been calculated repeatedly to be [H 3 O + ]=[OH - ]= 1.0 x 10-7 M 16-9

Ion-Product Constant, K w [H 3 O + ][OH - ] = 1.0 x 10-14 = K w We call this constant, 1.0 x 10-14, K w or the ion-product constant for water. K w = [H + ][OH - ] = 1.0 x 10-14 In any aqueous solution at 25 C, no matter what it contains, the product of [H + ] and [OH - ] must always equal 1.0 x 10-14. This means if the [H + ] goes up, the [OH - ] must go down so the product does not change. [H + ] = the concentration of H ions 16-10

3 Types of Situations In an aqueous solution, there are 3 possible situations. Each one always maintains a K w =1.0 x 10-14. 1. A neutral solution, where [H + ]=[OH - ] 2. An acidic solution, where [H + ]>[OH - ] 3. A basic solution, where [H + ]<[OH - ] Example: Calculate the [H + ] and determine the type of solution if you have 1.0 x 10-5 M OH - What information do you know from this equation? K w = [H + ][OH - ] Rearrange to find [H + ] = K w = 1.0 x 10-14 = [OH - ] 1.0 x 10-5 Is this solution acidic, basic, or neutral? 16-11

Practice Problems Determine the [H + ] and [OH - ] and whether the solution is acidic, basic or neutral. 1. 10.0 M H + 2. 1.0 x 10-7 M OH - 3. 3.4 x 10-4 M H + 4. 2.6 x 10-8 M H + 16-12

16.4 The ph Scale Calculating the [H + ] and [OH - ] brings a lot of very small numbers which is rather inconvenient. In 1909 a French chemist, named Soren Sorensen, came up with the ph scale. ph, literally means power of hydrogen When calculating the ph we use the following: ph = - log [H + ] Calculate the ph of a solution with [H + ] = 1.0 x 10-7 M Acidic solution ph < 7.00 Basic solution ph > 7.00 Neutral solution ph= 7.00 16-13

The ph Scale On the ph scale, each increase of 1 unit equals a power of ten change in the [H + ]. A solution with a ph of 3, has a [H + ] = 10-3 M, which is 10 greater than a solution with ph of 4, or [H + ] of 10-4 M and 100 times greater than a ph of 5 or 10-5 =[H + ]. As the [H + ] increases, the ph decreases. The ph scale runs values from 0-14, zero being very acidic, 14 being very basic, and 7 being neutral. 16-14

Figure 16.3: The ph scale. Use the scale to determine if the following are acidic, neutral or basic: a. grapefruit ph=3.2 b. orange juice ph=3.5 c. urine ph=4.8-7.5 (depends on H 2 O) d. saliva ph= 6.4-6.9 e. milk ph=6.5 f. gastric juice in stomach ph=2.0 g. blood ph=7.35-7.45 h. tears ph=7.4 i. milk of magnesia ph=10.6 j. ammonia ph=11.4 k. Draino ph=12.0 16-15

Calculating poh Sometimes we find it easier to calculate the poh, since we are given the [OH - ]. poh = -log [OH - ] Calculate the poh of [OH - ] = 1.0 x 10-2 M The poh is not commonly used to describe a solution, so we must convert the poh to the ph ph + poh = 14 What is the ph of our poh solved at the top of this slide? 16-16

Calculating ph and poh Practice Calculate the ph and poh for the following: 1. [H + ] = 1.0 x 10-4 M 2. [OH - ] = 1.0 x 10-3 M 3. [H + ] = 1.0 x 10-12 M 4. Determine whether each of the solutions above is acidic, basic or neutral. NOTE: When determining sig figs for logs, the number of decimal places for a log must equal the number of significant figures in the original number. 16-17

Calculating the [H + ] from the ph Sometimes the ph is available, but we need to know the [H + ] of the solution. In this case we need to find the inverse log of the ph. [H + ] = inverse log (-ph) On your calculator you may enter the ph, then push the inverse key and then the log. Your calculator may also have a 10 x key, typically above the log key. With this key you would enter your ph, then push the 10 x key. Calculate the [H + ] if the ph is 5.00. The same sequence is used for [OH - ] and poh. 16-18

Practice Problems The ph of a human blood sample was measured to be 7.41. What is the [H + ] in this blood? The poh of a liquid drain cleaner was found to be 10.50. What is the [OH - ] for this cleaner? 16-19

The ph curve for the titration of 25.0 ml of 0.200 M HNO 3 with 0.100 M NaOH. If you graphed the results from the computer simulation, it would look like this graph. 16-20

Neutralization Reaction Net Ionic Equation Since the acid and base in the reaction are strong, they will both dissociate completely in water. Write the following as an ionic equation: HCl (aq) + NaOH (aq) NaCl (aq) + H 2 O (l) H + (aq) +Cl - (aq) +Na + (aq) +OH - (aq) Na + +Cl - + H 2 O (l) We can then rewrite this as a NIE: H + (aq) + OH - (aq) H 2 O (l) The above is a neutralization reaction. It is called so because if equal amounts of H + and OH - are available for reaction, a neutral solution will result. 16-21

Calculating Volume in Neutralization Reactions What volume of 0.100 M HCl is needed to neutralize 25.0 ml of a 0.350 M NaOH solution? M acid V acid (#H + ) + M base V base (#OH - ) (0.100M)?V (1) = 0.35M(.025L)(1) V= (0.35M)(.025L) 0.100 M V= 0.0875L or 87.5mL OR YOU CAN CALCULATE USING STOICHIOMETRY! 16-22

Step 1: Write a balanced net ionic equation for the reaction. H + (aq) + OH - (aq) H 2 O (l) Step 2: Calculate the moles of reactants. 25.0 ml NaOH x 1L x 0.350 mol NaOH 1 1000 ml 1 L NaOH = 8.75 x 10-3 mol OH - Step 3: Determine which reactant is limiting. This problem requires the addition of just enough H + ions to react exactly with the OH - ions present. The number of moles of OH - ions present determines the number of moles of H + ions. Therefore the OH - are limiting. 16-23

Step 4: Calculate the moles of H + required. 8.75 x 10-3 mol OH - x 1 mol H + = 8.75 x 10-3 mol H + 1 1 mol OH - Step 5: Calculate the volume of 0.100 M HCl required. We know that HCl:H + is a 1:1 ratio, so the [H + ] is 0.100 M. Volume x 0.100 mol H + = 8.75 x 10-3 mol H + 1L Now we must solve for volume. Volume = 8.75 x 10-2 L or 87.5 ml 16-24

Practice Problem 1. Calculate the volume of 0.10 M HNO 3 needed to neutralize 125 ml of 0.050 M KOH. 16-25

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information