Notes on Acids and Bases
General Definitions |Properties |Water Dissociation |pH |Strength of Acids & Bases |Acid & Base Reactions |Titrations |Models of Acids |
1. General Definitions:
Acid: a substance which when added to water produces hydrogen ions [H+].
Base: a substance which when added to water produces hydroxide ions [OH-].
· react with zinc, magnesium, or aluminum and form hydrogen (H2(g))
· react with compounds containing CO32- and form carbon dioxide and water
· turn litmus red
· taste sour (lemons contain citric acid, for example) DO NOT TASTE ACIDS IN THE LABORATORY!!
· feel soapy or slippery
· turn litmus blue
· they react with most cations to precipitate hydroxides
· taste bitter (ever get soap in your mouth?) DO NOT TASTE BASES IN THE LABORATORY!!
3. Water dissociation: H2O(l) → H+(aq) + OH-(aq)
equilibrium constant, KW = [H+][OH-] / [H2O]
Note: water is not involved in the equilibrium expression because it is a pure liquid, also, the amount of water not dissociated is so large compared to that dissociated that we consider it a constant
Value for Kw = [H+][OH-] = 1.0 x 10-14
Note: The reverse reaction, H+(aq) + OH-(aq) → H2O(l) is not equal to 1 x 10-14
[H+] for pure water = 1 x 10-7
[OH-] for pure water = 1 x 10-7
A Doll's House cliff notes 3172 A Doll's House Essay In Henrik Ibson's play A Doll's House, Nora Helmer, one of the main characters left her husband Torvald. She did this under good pretences; their marriage was not stable. Nora was being repressed. She didn't have any freedom. She had to play the role of the housewife, and Torvald's pet. Nora was capable of a lot more, and was being held back. ...
Definitions of acidic, basic, and neutral solutions based on [H+]
· acidic: if [H+] is greater than 1 x 10-7 M
· basic: if [H+] is less than1 x 10-7 M
· neutral: if [H+] if equal to 1 x 10-7 M
Example 1: What is the [H+] of a sample of lake water with [OH-] of 4.0 x 10-9 M? Is the lake acidic, basic, or neutral?
Solution: [H+] = 1 x 10-14 / 4 x 10-9 = 2.5 x 10-6 M
Therefore the lake is slightly acidic
Remember: the smaller the negative exponent, the larger the number is.
· acid solutions should have exponents of [H+] from 0 to -6.
· basic solutions will have exponents of [H+] from -8 on.
Example 2: What is the [H+] of human saliva if its [OH-] is 4 x 10-8 M? Is human saliva acidic, basic, or neutral?
Solution: [H+] = 1.0 x 10-14 / 4 x 10-8 = 2.5 x 10-7 M
The saliva is pretty neutral.
relationship between [H+] and pH
pH = -log10[H+]
Definition of acidic, basic, and neutral solutions based on pH
acidic: if pH is less than 7
basic: if pH is greater than 7
neutral: if pH is equal to 7
The [H+] can be calculated from the pH by taking the antilog of the negative pH
Example 3: calculate the [OH-] of a solution of baking soda with a pH of 8.5.
Solution: First calculate the [H+]
if pH is 8.5, then the antilog of -8.5 is 3.2 x 10-9. Thus the [H+] is 3.2 x 10-9 M
Next calculate the [OH-]
1.0 x 10-14 / 3.2 x 10-9 = 3.1 x 10-6 M
Example 4: Calculate the pH of a solution of household ammonia whose [OH-] is 7.93 x 10-3 M.
Solution: This time you first calculate the [H+] from the [OH-]
7.93 x 10-3 M OH- = 1.26 x 10-12 M H+
Then find the pH
-log[1.26 x 10-12] = 11.9
Now you try a few by yourself. You can then check your answers using the Java applet that follows, but remember, you won’t learn how to do them if you don’t try by yourself first.
Practice #1. What is the pH of a solution of NaOH that has a [OH-] of 3.5 x 10-3 M?
Practice #2. The H+ of vinegar that has a pH of 3.2 is what?
Practice #3. What is the pH of a 0.001 M HCl solution?
Introduction: In 1909 S. P. L. Sorensen published a paper in Biochem Z in which he discussed the effect of H 1+ ions on the activity of enzymes. In the paper he invented the term pH to describe this effect and defined it as the -log[H 1+ ]. In 1924 Sorensen realized that the pH of a solution is a function of the 'activity' of the H 1+ ion not the concentration and published a second paper on the ...
How can pH be determined experimentally?
By using pH paper or a pH meter
5. Strength of Acids and Bases:
1. Strong Acids:
· completely dissociate in water, forming H+ and an anion.
example: HN03 dissociates completely in water to form H+ and N031-.
The reaction is
HNO3(aq) → H+(aq) + N031-(aq)
A 0.01 M solution of nitric acid contains 0.01 M of H+ and 0.01 M N03- ions and almost no HN03 molecules. The pH of the solution would be 2.0.
· There are only 6 strong acids: You must learn them. The remainder of the acids therefore are considered weak acids.
· Note: when a strong acid dissociates only one H+ ion is removed. H2S04 dissociates giving H+ and HS04- ions.
H2SO4 → H+ + HSO41-
A 0.01 M solution of sulfuric acid would contain 0.01 M H+ and 0.01 M HSO41- (bisulfate or hydrogen sulfate ion).
2. Weak acids:
· a weak acid only partially dissociates in water to give H+ and the anion
for example, HF dissociates in water to give H+ and F-. It is a weak acid. with a dissociation equation that is
HF(aq) ↔ H+(aq) + F-(aq)
· Note the use of the double arrow with the weak acid. That is because an equilibrium exists between the dissociated ions and the undissociated molecule. In the case of a strong acid dissociating, only one arrow ( → ) is required since the reaction goes virtually to completion.
· An equilibrium expression can be written for this system:
Ka = [ H+][F-] / [HF]
· Which are the weak acids? Anything that dissociates in water to produce H+ and is not one of the 6 strong acids.
Molecules containing an ionizable proton. (If the formula starts with H then it is a prime candidate for being an acid.) Also: organic acids have at least one carboxyl group, -COOH, with the H being ionizable.
Anions that contain an ionizable proton. ( HSO41- → H+ + SO42- )
... Bronsted-Lowry definition of acids and bases also explains why a strong acid displaces a weak acid from its compounds and likewise for strong and weak bases. In the Lewis ... a high concentration of hydroxide ions are bases. Bases have a pH rating of seven or higher. Solutions of ions conduct an electric current, similar ...
Cations: (transition metal cations and heavy metal cations with high charge)
also NH4+ dissociates into NH3 + H+
1. Strong Bases:
· They dissociate 100% into the cation and OH- (hydroxide ion).
example: NaOH(aq) → Na+(aq) + OH-(aq)
a. 0.010 M NaOH solution will contain 0.010 M OH- ions (as well as 0.010 M Na+ ions) and have a pH of 12.
· Which are the strong bases?
The hydroxides of Groups I and II.
· Note: the hydroxides of Group II metals produce 2 mol of OH- ions for every mole of base that dissociates. These hydroxides are not very soluble, but what amount that does dissolve completely dissociates into ions.
exampIe: Ba(OH)2(aq) → Ba2+(aq) + 2OH-(aq)
a. 0.000100 M Ba(OH)2 solution will be 0.000200 M in OH- ions (as well as 0.00100 M in Ba2+ ions) and will have a pH of 10.3.
2. Weak Bases:
What compounds are considered to be weak bases?
Most weak bases are anions of weak acids.
Weak bases do not furnish OH- ions by dissociation. They react with water to furnish the OH- ions.
Note that like weak acids, this reaction is shown to be at equilibrium, unlike the dissociation of a strong base which is shown to go to completion.
When a weak base reacts with water the OH- comes from the water and the remaining H+ attaches itsef to the weak base, giving a weak acid as one of the products. You may think of it as a two-step reaction similar to the hydrolysis of water by cations to give acid solutions.
NH3(aq) + H2O(aq) → NH4+(aq) + OH-(aq)
methylamine: CH3NH2(aq) + H20(l) → CH3NH3+(aq) + OH-(aq)
acetate ion: C2H3O2-(aq) + H2O(aq) → HC2H302(aq) + OH-(aq)
General reaction: weak base(aq) + H2O(aq) → weak acid(aq) + OH-(aq)
Since the reaction does not go to completion relatively few OH- ions are formed.
Acid-Base Properties of Salt Solutions:
definition of a salt:
· an ionic compound made of a cation and an anion, other than hydroxide.
· the product besides water of a neutralization reaction
Chemistry: Acid-Base Titration Purpose: The objective of this experiment were: a) to review the concept of simple acid-base reactions; b) to review the stoichiometric calculations involved in chemical reactions; c) to review the basic lab procedure of a titration and introduce the student to the concept of a primary standard and the process of standardization; d) to review the calculations ...
determining acidity or basicity of a salt solution:
split the salt into cation and anion
add OH- to the cation
a. if you obtain a strong base. the cation is neutral
b. if you get a weak base, the cation is acidic
Add H+ to the anion
a. if you obtain a strong acid, the anion is neutral
b. if you obtain a weak acid. the anion is basic
Salt solutions are neutral if both ions are neutral
Salt solutions are acidic if one ion is neutral and the other is acidic
Salt solutions are basic is one of the ions is basic and the other is neutral.
The acidity or basicity of a salt made of one acidic ion and one basic ion cannot be determined without further information.
Examples: determine if the following solutions are acidic, basic, or neutral Click on each one to find out the answer.
6. Acid-Base Reactions:
Strong acid + strong base: HCl + NaOH → NaCl + H2O
net ionic reaction: H+ + OH- → H2O
Strong acid + weak base:
example: write the net ionic equation for the reaction between hydrochloric acid, HCl, and aqueous ammonia, NH3. What is the pH of the resulting solution?
Strong base + weak acid:
example: write the net ionic equation for the reaction between citric acid (H3C6H507) and sodium hydroxide. What is the pH of the resulting solution?
1. Nomenclature: these are terms that are used when talking about titrating one substance with another. You need to learn these definitions well enough to explain them to someone else.
· equivalence point
· end point
· titration cuve
2. Strong acid-strong base titration
pH at equivalence point
3. Strong acid-weak base titration
pH at end point
Abstract By using acid-base titration, we determined the suitability of phenolphthalein and methyl red as acid base indicators. We found that the equivalence point of the titration of hydrochloric acid with sodium hydroxide was not within the ph range of phenolphthalein’s color range. The titration of acetic acid with sodium hydroxide resulted in an equivalence point out of the range of ...
4. Weak acid-strong base titrations
example: titration curve for the titration of vinegar with NaOH pH at end point- approximately 8.5 species present- H2O and NaC2H3O2 appropiate indicator-phenolphthalein ||
Note: no matterwhat type of titration you do, at the equivalence (end) point the number of moles of H+ is equivalent to the number of moles of OH-. This applies whether you have weak or strong acids and/or bases.
Problems: l. Citric acid (C6H807) contains a mole of ionizable H+/mole of citric acid. A sample containing citric acid has a mass of 1.286 g. The sample is dissolved in 100.0 mL of water. The solution is titrated with 0.0150 M of NaOH. If 14.93 mL of the base are required to neutralize the acid. then what is the mass percent of citric acid in the sample?
2. A sample of solid calcium hydroxide is mixed with water at 30 oC and allowed to stand. A 100.0 mL sample of the solution is titrated with 59.4 mL of a 0.400 M solution of hydrobromic acid.
a. What is the concentration of the calcium hydroxide solution?
b. What is the solubility of the calcium hydroxide in water at 30 oC? Express your answer in grams of Ca(OH)2 / 100 mL water?
8. Three models of acids:
l. Arrhenius Model
Basis for the model–action in water
· acid definition: produces H
· base definition: produces OH1- in water solution
2. Bronsted-Lowry Model
Basis for the model– proton transfer
· acid definition: donates a proton ( H
· base definition: accepts a proton
· conjugate acid definition: the acid becomes the conjugate base after it donates the proton because it can now accept it back.
· conjugate base definition: the base becomes the conjugate acid after it accepts the proton because it can now donate it back.
3. Lewis Model
Basis for model–electron pair transfer
· acid definition: accepts a pair of electrons
· base definition: donates a pair of electrons
Send questions, comments or suggestions toGwen Sibert, at theRoanoke Valley Governor’s Schoolgsibert@rvgs.k12.va.us[->6] ||Back to Notes Menu[->7]|
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Titration of an Acid with a Base Jeff Barker Chem. A-1 Wednesday, May 17, 2000 Introduction: When you combine strong acids and bases, perfect ionization is achieved. This means that all that is left after the reactions are water and the spectator ion. The definition of an acid is a substance that produces hydronium ions when dissolved in water. Acids have a pH range from 1-6. Bases release ...
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