Acids and Bases II Dr. Ron Rusay Summer 2004 © Copyright 2004 R.J. Rusay
Water as an Acid and a Base Amphoteric substances can act as either an acid or a base Water acting as an acid:Water acting as an acid: ___+ H 2 O ___ + OH -1 ___+ H 2 O ___ + OH -1 Water acting as a base:Water acting as a base: HCl + H 2 O _____ + ____ HCl + H 2 O _____ + ____ Water reacting with itself as both:Water reacting with itself as both: H 2 O + H 2 O _____ + ____
Water as an Acid and a Base Water is amphoteric. It can behave either as an acid or a base. H 2 O (l) + H 2 O (l) H 3 O + (aq) + OH (aq) acid 1 base 1 acid 1 base 1 The equilibrium expression for pure water is: K w =
Water: Self-ionization
Autoionization of Water Water is an extremely weak electrolyte therefore are only a few ions present: K w = [H 3 O +1 ] [OH -1 ] = 25°C NOTE: the concentration of H 3 O +1 and OH -1 are equalNOTE: the concentration of H 3 O +1 and OH -1 are equal [H 3 O +1 ] = [OH -1 ] = 25°C[H 3 O +1 ] = [OH -1 ] = 25°C K w is called the ion product constant for water: as [H 3 O +1 ] increases, [OH - ] ________ and vice versa.K w is called the ion product constant for water: as [H 3 O +1 ] increases, [OH - ] ________ and vice versa.
Acidic and Basic Solutions Acidic solutions have: a larger ____ than ____ Basic solutions have: a larger ____ than ____ Neutral solutions have [H +1 ] = [OH -1 ] = _______ M [H +1 ] = 1 x [OH -1 ] [OH -1 ] = 1 x [H +1 ]
The pH Scale pH log [H + ] log [H 3 O + ] 1 pH unit corresponds to a factor of 10 pH in water ranges from __ to __. K w = _____________ = [H + ] [OH ] -log K w = -log [H 3 O +1 ] -log [OH -1 ] -log K w = -log [H 3 O +1 ] -log [OH -1 ] pK w = pH + pOH = _______ As pH rises, pOH falls (Sum = _____).
pH & pOH pH = -log[H 3 O +1 ]pOH = -log[OH -1 ] pH water = -log[10 -7 ] = 7 = pOH waterpH water = -log[10 -7 ] = 7 = pOH water [H 3 O +1 ] = 10 -pH [OH -1 ] = 10 -pOH pH 7 is _____, pH = 7 is ________ The lower the pH, the more _______ the solution; The higher the pH, the more _____ the solution pOH = 14 - pH
There are no theoretical limits on the values of pH or pOH. (e.g. pH of 2.0 M HCl is , the pH at Iron Mountain, California is ~ -2 to -3)
What’s in these household products? Acids or bases? Strong or weak? Should you be concerned about safety?
The pH of Some Familiar Aqueous Solutions [H 3 O + ] [OH - ] [OH - ] = KWKW [H 3 O + ] _______ solution _______ solution _______ solution [H 3 O + ]> [OH - ] [H 3 O + ]< [OH - ] [H 3 O + ] = [OH - ] What’s your diet? Your urine will tell!
Example #1 Determine the given information and the information you need to find Given [H +1 ] = ____ MFind [OH -1 ] Solve the Equation for the Unknown Amount Determine the [H +1 ] and [OH -1 ] in a 10.0 M H +1 solution
Convert all the information to Scientific Notation and Plug the given information into the equation. Given [H +1 ] = 10.0 M= 1.00 x 10 1 M K w = 1.0 x Example #1 (continued) Determine the [H +1 ] and [OH -1 ] in a 10.0 M H +1 solution
Example #2 Find the concentration of [H +1 ] Calculate the pH of a solution with a [OH -1 ] = 1.0 x M
Enter the [H +1 ] concentration into your calculator and press the log key log(1.0 x ) = ____ Change the sign to get the pH pH = -(-8.0) = ____ Example #2 continued Calculate the pH of a solution with a [OH -1 ] = 1.0 x M
Enter the [H +1 ] or [OH -1 ]concentration into your calculator and press the log key log(1.0 x ) = ___ Change the sign to get the pH or pH pOH = ______ Subtract the calculated pH or pOH from to get the other value pH = _____ – ____ = ____ Calculate the pH and pOH of a solution with a [OH -1 ] = 1.0 x M Example #3
If you want to calculate [OH -1 ] use pOH, if you want [H +1 ] use pH. It may be necessary to convert one to the other using 14 = [H +1 ] + [OH -1 ] pOH = ______ – ____ = _____ Enter the pH or pOH concentration into your calculator Change the sign of the pH or pOH -pOH = ______ Press the button(s) on you calculator to take the inverse log or 10 x [OH -1 ] = = ______ Example #4 Calculate the [OH -1 ] of a solution with a pH of 7.41
Calculating the pH of a Strong, Monoprotic Acid A strong acid will dissociate 100% HA H +1 + A -1 Therefore the molarity of H +1 ions will be the same as the molarity of the acid Once the H +1 molarity is determined, the pH can be determined pH = -log [H +1 ]
Example #5 Determine the [H +1 ] from the acid concentration HNO 3 H +1 + NO M HNO 3 = _____ M H +1 Enter the [H +1 ] concentration into your calculator and press the log key log(0.10) = ___ Change the sign to get the pH pH = _________ Calculate the pH of a 0.10 M HNO 3 solution
Buffered Solutions Buffered Solutions __________ in pH when an acid or base is added to it. Used when need to maintain a certain pH in the system, eg. Blood. A buffer solution contains a __________ and its conjugate _______ Buffers work by reacting with added ____ or ___ ions so they do not accumulate and change the pH. Buffers will only work as long as there is sufficient weak acid and conjugate base molecules present.
Buffers
pH Problems What is the pH of 6M hydrochloric acid? _____ Name(s):___________