Presentation is loading. Please wait.

Presentation is loading. Please wait.

Section 16.2 Determining the Acidity of a Solution 1.To understand and determine pH and pOH 2.To learn methods for measuring pH of a solution Objectives.

Published byLawrence Hudson Modified over 8 years ago

Similar presentations

Presentation on theme: "Section 16.2 Determining the Acidity of a Solution 1.To understand and determine pH and pOH 2.To learn methods for measuring pH of a solution Objectives."— Presentation transcript:

1 Section 16.2 Determining the Acidity of a Solution 1.To understand and determine pH and pOH 2.To learn methods for measuring pH of a solution Objectives

2 Section 16.2 Determining the Acidity of a Solution Water as an Acid and a Base Amphoteric substance – can behave as either and acid or a base; water is the most common. Ionization of water – water molecules react with each other to form hydronium ions and hydroxide ions: H + acid base transfer hydronium hydroxide H 2 O(l) + H 2 O(l)  H 3 O + (aq) + OH - (aq) This forward reaction happens very little; in pure water, only a tiny amount of hydronium and hydroxide ions exists. At 25 o C, the actual concentrations are [H 3 O + ] = [OH - ] = 1.0 x 10 -7 M (a very small number…)

3 Section 16.2 Determining the Acidity of a Solution The Ion-Product Constant for Water (K w ) The mathematical product of the hydronium and hydroxide concentrations is always constant! To simplify, we write H 3 O + as H+; brackets mean concentration (molarity): K w = [H + ] [OH - ] = 1.0 x 10 -14 M The point: In any aqueous solution at 25 o C, no matter what it contains, this product remains constant: if [H + ] goes up, [OH - ] must go down.

4 Section 16.2 Determining the Acidity of a Solution Neutral, Acidic and Basic Solutions Neutral solution - a solution in which the concentrations of hydronium/hydrogen and hydroxide ions are equal: [H + ] = [OH - ] Acidic solution – a solution in which the concentration of hydrogen ions is greater that the concentration of hydroxide ions: [H + ] > [OH - ] Basic solution – a solution in which the concentration of hydroxide ions is greater than the concentration of hydrogen ions: [H + ] < [OH - ] In each case, K w = [H + ] [OH - ] = 1.0 x 10 -14 M (constant)

5

6 Section 16.2 Determining the Acidity of a Solution The pH scale The “p scale” is used to express small numbers. pH =  log [H + ] Because the pH scale is a log scale based on 10, the pH changes by 1 for every power of 10 change in the [H + ].

7 Section 16.2 Determining the Acidity of a Solution A. The pH Scale pOH scale pOH =  log [OH  ] pH + pOH = 14.00

8 Section 16.2 Determining the Acidity of a Solution B. Measuring pH Indicators – substances that exhibit different colors in acidic and basic solutions –In an acidic solution the indicator will be in the HIn form. –In a basic solution the indicator will be in the In  form. Other methods –Indicator paper –pH meter

9 Section 16.2 Determining the Acidity of a Solution Useful Ph Ranges for Several Common Indicators

10 Section 16.2 Determining the Acidity of a Solution Calculating the pH of Strong Acid Solutions (skip) A strong acid dissociates completely in water; therefore, the ions formed have the same concentration as the acid (unless the acid yields more than one proton per formula unit). What is the pH of 1.0 M HCl? 1.0 M HCl  1.0 M H + and 1.0 M Cl - pH = -log [H + ] = -log (1.0) = 0 (very acidic) What is the pH of 0.10 M HNO 3 ? 0.10 M HNO 3  0.10 M H + and 0.10 M NO 3 - pH = -log [H + ] = -log (0.10) = 1.00

Download ppt "Section 16.2 Determining the Acidity of a Solution 1.To understand and determine pH and pOH 2.To learn methods for measuring pH of a solution Objectives."

Similar presentations

Hydrogen Ions and Acidity

Hydrogen Ions and Acidity
PH.

PH.
Ch.15: Acid-Base and pH Part 1.

Ch.15: Acid-Base and pH Part 1.
Acids, Bases, and pH. Acids and Bases Acids produce H + ions which react with water to form hydronium (H 3 O + ) ions Bases produce OH - ions.

Acids, Bases, and pH. Acids and Bases Acids produce H + ions which react with water to form hydronium (H 3 O + ) ions Bases produce OH - ions.
Acids, Bases, and Salts Chapter 19.

Acids, Bases, and Salts Chapter 19.
Acids and Bases. Ionization of Water H 2 O + H 2 O H 3 O + + OH - K w = [H 3 O + ][OH - ] = 1.0  10 -14.

Acids and Bases. Ionization of Water H 2 O + H 2 O H 3 O + + OH - K w = [H 3 O + ][OH - ] = 1.0 
Aqueous Solutions and the Concept of pH

Aqueous Solutions and the Concept of pH
How is pH defined? The pH of a solution is the negative logarithm of the hydrogen-ion concentration. The pH may be represented mathematically, using the.

How is pH defined? The pH of a solution is the negative logarithm of the hydrogen-ion concentration. The pH may be represented mathematically, using the.
Self-ionization of Water and pH Objectives: 1. Identify the ions present in pure water and give their concentrations. 2. Define pH and explain how the.

Self-ionization of Water and pH Objectives: 1. Identify the ions present in pure water and give their concentrations. 2. Define pH and explain how the.
Acid / Base Equilibria A Practical Application of the Principles of Equilibrium.

Acid / Base Equilibria A Practical Application of the Principles of Equilibrium.
The Ion Product Constant for Water (Kw)

The Ion Product Constant for Water (Kw)
Acid-Base Titration and pH

Acid-Base Titration and pH
Solutions Acids and Bases. Solutions A solution is a mixture in which one or more substances are uniformly distributed in another substance. (Liquids,

Solutions Acids and Bases. Solutions A solution is a mixture in which one or more substances are uniformly distributed in another substance. (Liquids,
Indicators and Hydrogen Ions and Acidity

Indicators and Hydrogen Ions and Acidity
pH scale Logarithmic scale expressing the H + concentration, [H + ]. If the pH changes by a factor of 1, the [H + ] changes by a factor of 10. pH =

pH scale Logarithmic scale expressing the H + concentration, [H + ]. If the pH changes by a factor of 1, the [H + ] changes by a factor of 10. pH =
PH Chapter 19.3. Vocabulary Word hydronium ion: H 3 O + hydroxide ion: OH -

PH Chapter Vocabulary Word hydronium ion: H 3 O + hydroxide ion: OH -
Chapter 19 More about ACID-BASES. Self-Ionization of Water Two water molecules produce a hydronium ion & a hydroxide ion by the transfer of a proton.

Chapter 19 More about ACID-BASES. Self-Ionization of Water Two water molecules produce a hydronium ion & a hydroxide ion by the transfer of a proton.
Acids and Bases Chapter 16. 2 Copyright © by Houghton Mifflin Company. All rights reserved. 16 Concept of Acids and Bases According to the Arrhenius concept.

Acids and Bases Chapter Copyright © by Houghton Mifflin Company. All rights reserved. 16 Concept of Acids and Bases According to the Arrhenius concept.
Chapter 19 More about ACID-BASES. Self-Ionization of Water Two water molecules produce a hydronium ion & a hydroxide ion by the transfer of a proton.

Chapter 19 More about ACID-BASES. Self-Ionization of Water Two water molecules produce a hydronium ion & a hydroxide ion by the transfer of a proton.
Acids, Bases, & pH. I. Macroscopic Properties Easily Observable A. Acids taste sour, bases taste bitter B. Bases feel slippery (soap) C. Acids & Bases.

Acids, Bases, & pH. I. Macroscopic Properties Easily Observable A. Acids taste sour, bases taste bitter B. Bases feel slippery (soap) C. Acids & Bases.

Similar presentations

Ads by Google