Embed Size (px)
DESCRIPTION
Chapter 15. Acids and Bases. Objectives. Describe the properties of acids and bases Recognize acids and bases by definitions Compare strong and weak acids/bases Describe electrolytes. What Do You Know About Acids and Bases?. Properties of Acids. Sour taste - PowerPoint PPT Presentation
Citation preview
Chapter 15
Acids and Bases
Objectives
• Describe the properties of acids and bases
• Recognize acids and bases by definitions
• Compare strong and weak acids/bases
• Describe electrolytes
What Do You Know About Acids and Bases?
Properties of Acids
• Sour taste
– (A VERY bad way to test in the lab!)
• What acids have you tasted?
• Turns blue litmus red
• Reacts with metal to form hydrogen gas
• pH less than 7
• Electrolyte
• Solutions that conduct electrical current
Properties of Bases
• Tastes bitter
– (Also not a good lab practice!)
• Turns red litmus blue
• pH greater than 7
• Electrolyte
Acid/Base Definitions
• Arrhenius Definition
– Acids increase the H+ ion concentration in solution
• Acids have H as the first element
– Bases increase the OH- ion concentration in solution
• Many bases end with OH
– Definition limited to solutions!
Acid/Base Definitions
• Bronsted/Lowry Definition
– Acids are H+ donors
• H+ ion is just a proton
–(often called proton donors)
– Bases are H+ acceptors
–(Often called proton acceptors)
• This is the definition of acids and bases we will use the most.
Strong Acids
• Strong Acids – Acids that completely ionize in solution
– Assume that HA can be an acid
HA H+ + A-
– There will be NO HA left in solution
• Strong Acids – Memorize the first 3
HNO3 HCl H2SO4
HClO4 HBr HI
The Hydronium Ion
• H+ ions can be written one of two ways
– 1st H+
• Easy way to indicate the ion
– 2nd H3O+
• Indicates that the H+ attaches to water molecules
–Hydronium Ion
• Either way is fine
Weak Acids
• Weak Acids – Acids that only partially ionize in solution– Equilibrium is established– Assume HA to be a weak acid
HA + H2O H3O+ + A-
– There will be lots of HA left in solution• Weak Acids – Any acid that is not strong
H2CO3 HF H3PO4
HNO2 HC2H3O2 H2SO3
Inorganic vs Organic Acids
• All acids have H in the formula
• Inorganic acids contain hydrogen and a halogen or hydrogen and a polyatomic ion
• Organic acids have hydrogen and carbon and oxygen (not CO3
-2)
– Carboxyl group
– Carboxylic acids
• All weak
Strong Bases
• Strong Bases – Bases that completely ionize in solution
KOH K+ + OH-
– There will be NO KOH left in solution
• Strong Bases
NaOH KOH
• Group 2 hydroxides are also considered strong bases
Weak Bases
• Weak Bases – Bases that partially ionize in solution
NH3 + H2O NH4+ + OH-
– There will be lots of NH3 left in solution
– Weak bases are ammonia derivates
• They will have nitrogen in them
Electrolytes• Conduct current because charged particles are
free to move about• Acids form ions when they are dissolved in
solution
HCl H+ + Cl-
• Salts form ions when they are dissolved in solution
NaNO3 Na+ + NO3-
• Charged particles complete (or close) the circuit
Closed Circuit
Open Circuit
Another Type of Open Circuit
Closed circuit•Ions in solution close the circuit
• Charges flow to the opposite pole
•Current flows from negative to positive
•Light bulb shines!
Nonelectrolytes
• Solutions that do not conduct an electric current
– No ions are present
• Nothing to conduct the current
• All molecules are nonelectrolytes
– They dissolve into individual molecules
Electrolytes or Nonelectrolytes?
• CH4
– Nonelectrolyte
• KBr
– Electrolyte
• C2H6O
– Nonelectrolyte
• H2SO4
– Electrolyte
Strong and Weak Electrolytes
• Strong electrolytes
– Solutions that conduct current well
• Lots of ions in solution
–Strong acids and bases, salts
• Weak electrolytes
– Solutions that conduct current poorly
• Few ions
–Weak acids and bases
Homework
• p. 625 #42,43,51,55,61,67,70,86,97
Objectives
• Recognize polyprotic acids.
• Compare the strengths of weak acids and bases.
• Describe a neutralization reaction
• Calculate neutralization data
• Determine if a solution is acidic, basic, or neutral
• Explain the autodissociation of water
Polyprotic Acids
• Acids that can donate more than 1 hydrogen
• H2CO3 – Carbonic Acid
– Able to donate 2 H’s
• Diprotic
• H3PO4 – Phosphoric Acid
– Able to donate 3 H’s
• Triprotic
Cont.
• HNO3 – Nitric Acid
– Only 1 H to donate
• Monoprotic
• HC2H3O2 – Acetic Acid
– Only the first H can be donated
• Same with most carboxylic acids
How Weak is Weak?Quantifying Weak Acids and Bases• Weak acids and bases have equilibrium
dissociation values
– The smaller the constant the weaker the acid or base
– The larger the constant the stronger the acid or base
How Weak is Weak?Quantifying Weak Acids and Bases
Acid - HA(aq) H+ + A-
• The Equilibrium Expression
Ka = [H+] [A-] / [HA]
Base - B(aq) + H2O BH+ + OH-
• The Equilibrium Expression
Kb = [BH+] [OH-] / [B]
Sample Ka Values
• Acid Ka
• HClO2 1.2x10-2
• HF 7.2x10-4
• HC2H3O2 1.8x10-5
• HClO 3.5x10-8
• HCN 6.2x10-10
• HIO 2.0x10-11
• What is the strongest / weakest acid?
Sample Kb Values
• Base Kb
• NH3 1.8x10-5
• (C2H5)2NH 1.3x10-3
• (C2H5)3N 4.0x10-4
• CH3NH2 4.4x10-4
• C2H5NH2 5.6x10-4
• What is the strongest / weakest base?
Neutralization Reactions
• The reaction of an acid and a base to yield a salt and water
• HI + KOH HOH + KI
• Net Ionic Equation
• Net Ionic is ALWAYS the same
Example• What volume of 0.25M KOH is required to
react with 50.0 mL of 0.20 M HBr?
Example• What volume of 1.2M NaOH is required to
react with 30.0 mL of 0.70 M H2SO4?
Acidic, Basic, and Neutral Solutions
• Relates to concentrations of H+ and OH-
• Acidic solutions have more H+ than OH-
– H+ from an acid
• Basic solutions have more OH- than H+
– OH- from base
• Neutral solutions have equal amounts of both ions
– Both ions come from water!
Autoionization of Water
• Water molecules dissociate by themselves
H2O(l) H+ + OH-
• In pure water the concentrations are equal• Both 1.00x10-7M• Write the equilibrium expression
• Kw is always 1.00x10-14 at 25ºC
LeChatlier’s Principle (Again)
• The concentration of H+ and OH- can vary in solution.
• When H+ is added, [OH-] decreases
• When OH- is added, [H+] decreases
• That is how solutions become acidic or basic
Example• What is the concentration of H+ and OH- in
a 0.10M solution of HCl? Is the solution acidic, basic, or neutral?
Example• A solution is prepared by dissolving
6.00 grams of KOH in 200.0mL of water. What is the concentration of H+ and OH-? Is the solution acidic, basic, or neutral?
Homework
• p. 626 #80,87,89,92,101,117,119,124,131,134
