Equilibrium constant
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1 Equilibrium constant
2 Equilibrium constant Many reactions that occur in nature are reversible and do not proceed to completion. They come to an equilibrium where the net velocity = 0 The velocity of forward reaction is equal to the reverse reaction. The position of equilibrium is described by equilibrium constant, K eq.
3 Equilibrium constant cont ed Example: dissociation of a weak acid: K 1 HA H + + A - K- 1 The forward velocity, is proportional to the [HA] V f α [HA] V f = k 1 [HA] K 1 is proportional to the constant rate V r α [H + ] and V r α [A - ] V r α [H + ][A - ] V r = k -1 [H + ][A - ]
4 Equilibrium constant cont ed At equilibrium: V f = V r Or k 1 [HA] = k -1 [H + ][A - ] k 1 [H + ][A - ] = [HA] k -1 K eq = k 1 k -1 K eq = [H + ][A - ] [HA]
5 Acids and Bases
6 Acids and Bases Acid: is a substance that can donate protons (hydrogen ions). Base: is a substance that can accept protons. Bronsted concept: Acid Base Conjugated Base HA + B - A - + HB Conjugated Acid
7 Ionization of strong acids and bases A strong acid is a substance that ionizes 100% in aqueous solutions. HCl + H 2 O H 3 O + + Cl - A strong base is a substance that ionizes totally in solution to produce OH - ions. KOH K + + OH -
8 Ionization of Water H 2 O H + + OH - Water is amphoteric it can accept and donate protons. In pure water 1 mole of [H + ] produces 1 mole of [OH - ], ie. [H + ] = [OH - ] The ph of water = 7 K 1 K- 1 [H pk + ] [OH - ] eq = [H 2 O] Then: [H + ] = [OH - ] = 10-7 M
9 Ionization of Water cont ed Thus the molarity of water: M = no. of moles volume of solution in L In 1 liter of water = 1000g of water Mwt H 2 O = 18 No. of moles 1000 / 18 = 55.6 moles M = 55.6 / 1 = 55.6 M Since part of water molecules is ionized The actual conc. of the water is =
10 Ionization of Water cont ed The 10-7 is very small it can be neglected Since the concentration of the water is constant thus K eq of water can be written as follows: K eq = [H + ] [OH - ] K w = [H + ] [OH - ] K w = K w = pk w = - log pk w = 14
11 Ionization of weak acids Weak acids have a weak affinity towards their proton CH 3 COOH + H 2 O CH 3 COO - + H 3 O + K a = [H 3 O + ] [CH 3 COO - ] [CH 3 COOH] The concentration of water is not considered since it is a constant HA H + + A - K a = [H + ] [A - ] [HA]
12 Ionization of weak acids cont ed Since weak acids ionize partially only thus their K a value will always be less than one because the concentration of [HA] is always higher than the concentration of both [H + ] and [A - ] Between weak acids the higher the K a the stronger the acid.
13 Ionization of Weak Bases Weak bases have a weak affinity towards their proton. NH 4 OH NH OH - [NH + 4 ] [OH - ] K b = [NH 4 OH] There are two types of bases: 1. Inorganic bases that ionize to release OH - ions. 2. Organic bases, these bases don t contain OH - ions to release. R- NH H 2 O R-NH + 3 OH - R-NH OH -
14 Ionization of Weak Bases Organic bases will react with water accepting a proton and eventually OH - will be released. K b = [R-NH 3+ ][OH - ] [R-NH 2 ]
15 ph Although the concentration of both OH - and H + are very effective in reactions, it s usually the concentration of the [H + ] ions in solutions that is measured. The concentration of [H + ] ions in solutions is usually very low; thus it s expressed as ph where: ph= -Log [H + ]
16 ph and poh ph is a shorthand way of designating the hydrogen ion activity of a solution. By definition ph is the negative logarithm of hydrogen ion activity. Similarly poh is the negative logarithm of the hydroxyl ion activity. ph: poh: ph= -log a H + = log1/a H + poh= -log a OH - = log 1/ a OH - = -log γ H+ [H + ] = log γ OH - [OH - ] = log 1/ γ H+ [H + ] = log 1/ γ OH- [OH - ]
17 In dilute solutions of acids and bases and in pure water, the activities of H + and OH - may be considered to be the same as their concentrations. ph= -log[h + ] = log1/ [H + ] poh= -log[oh - ]= log1/ [OH - ] In all aqueous solutions the equilibrium for the ionization of water must be satisfied, that is, [H + ][OH - ]= K w = Thus, if [H + ] is known, we can easily calculate [OH - ]. Furthermore, we can derive the following relationship between ph and poh: [H + ][OH - ]= K w
18 Taking the logarithm: log [H + ] + log[oh - ]= log K w -log [H + ] - log[oh - ]= -log K w -log [H + ]=ph - log[oh - ] -log K w =pk w ph + poh = pk w K w = pk w = -log10-14 = +14 ph + poh = 14
19 ph of Solutions of Weak Acids The dissociation of a weak monoprotic acid, HA, yields, H + and A - in equal concentration. If K a and the initial concentration of HA are known, H + can be calculated easily: [H + ] [A - ] K a = = [HA] [H + ] 2 =K a [HA] [H + ] = K a [HA] Log[H + ] = ½ Log K a [HA] [H + ] 2 [HA]
20 ph of Solutions of Weak Acids Cont ed Multiply by -1 - Log[H + ] = ½ (-Log K a - Log [HA]) ph = ½ ( pk a + p [HA]) A similar relationship can be derived for weak bases: [OH - ] = K b [A - ] poh = ½ ( pk b + p [A - ])
21 Example 1 What are the: 1. H + ion concentration. 2. ph. 3. OH - ion concentration. 4. poh. of a M solution of HCl?
22 A. HCl is a strong inorganic acid; it is 100% ionized in dilute solution. So when mole of HCl is introduced into a litre of H 2 O, it immediately dissociates into M H + and M Cl -. The ionization of water in neglected. B. ph= -log[h + ] = -log10-3 =-(-3)= +3
23 C. [H + ][OH - ]= K w [OH - ]= K w /[H + ] [OH - ]= (1 x )/(1 X 10-3 ) [OH - ]= 1 x D. poh= -log[oh - ] = -log(10-11 ) = -(-11) poh= 11 OR: ph + poh =14 poh= 14 ph ph = 14 3 = 11
24 Example 2 What are the: A. [H + ]. B. [OH - ]. C. ph. D. poh. Of a M solution of HNO 3?
25 A. HNO 3 is a strong inorganic acid. [H + ]= M = 2 x 10-3 M B. [H + ][OH - ]= 1 x [OH - ]= (1 x )/(2 x 10-3 ) = 0.5 x [OH - ]= 5 X M C. ph= log 1/[H + ] = log 0.5 x 10 3 = log 5 x 10 2 = ph= D. ph + poh= 14 poh= =
26 Example 3 What is the concentration of HNO 3 in a solution that has a ph of 3.4? [H + ]= antilog -ph =10 -ph = = 10-4 x [H + ]= 3.98 x 10-4
27 Example 4 How many: (a) H + ions, (b) OH - ions present in 250 ml of a solution of a ph 3? ph = 3 [H + ] = 10-3 M (g/l) 1 g/l = ion/l 10-3 g/l = ion/l = ion/250 ml
28 ph + poh = poh = 14 poh = 14 3 = 11 [OH - ] = g/l = ion/l g/l = ion/l = ion/250 ml
29 Neutralization Of strong acids and bases
30 Example1 1- How many ml of M H 2 SO 4 are required to neutralize exactly 525 ml of 0.06 M KOH? 2- What is the ph of the neutralized solution? No. of moles (equivalents) of H + required = no. of moles (equivalents) of OH - present L acid N acid = no. of equivalents L acid N acid = L base N base
31 Cont ed H 2 SO 4 = M = 0.05 N L acid 0.05 = L acid = ( ) / 0.05 L acid = 0.63 Acid required = 630 ml The neutralized solution contains only K 2 SO 4 a salt of a strong acid and strong base has no effect on ph ph =7
32 Example 2 How many ml of 0.05 N HCl are required to neutralize exactly 8g of NaOH? At the equivalent point: The no. of moles H + added = no. of moles OH - present L acid N acid = no. of (moles) equivalents of H + added wt NaOH / Mwt NaOH = no. of moles of NaOH (OH - ) present
33 Cont ed L acid N acid = wt NaOH / Mwt NaOH L acid 0.05 = 8 / 40 L acid = 8 / 2 = 4 L or 4000 ml
34 Relationship between K a and K d for weak acids and bases Weak acids (HA) dissociates in water: HA H + + A - K a = [H + ] [A - ] [HA] If we start with conjugated base A - and dissolve it water, it ionizes as a typical base: A - + HOH HA + OH - K b = [HA] [OH - ] [A - ]
35 [H + ] = [OH - ] = [HA] K a [A - ] [A - ] K b [HA] [H + ] [OH - ] = K w = Kw [HA] K a [A - ] K b [A - ] [HA] K a K b = K w Log K a + Log K b = Log K w - Log K a - Log K b = - Log K w pk a + pk b = pk w 14 = pk w pk a + pk b = 14
36 Example A weak acid HA, is 0.1% ionized (dissociated) in a 0.2 M solution. a) What is the equilibrium constant of the acid K a? b) What is the ph of the solution? c) How much weaker is the active acidity of the HA solution compared to a 0.2 M solution of HCl? d) How many ml of 0.1 N KOH would be required to neutralize completely 500 ml of 0.2 M HA solution?
37 Example Cont ed A) HA H + + A - Start: 0.2 M The dissociation fraction= (0.1/100) 0.2 = M Equilibrium: M M M K a = [H + ] [A - ] [HA] K a = (( ) ( )) / ( ) When the amount of HA that has dissociated is small, 10% or less the K a is simplified by ignoring the subtraction from [HA]
38 K a = (( ) ( )) / 0.2 K a = / K a = B) ph = - Log [H + ] ph = - Log ph = 3.7 C) A 0.2 M HCl would be 100% ionized and yields 0.2 M H + ph = - Log [H + ] ph = - Log 0.2 ph = 0.7 The weak acid is 3 ph units less than HCl but this is a log scale, actually HA is 1000 times weaker than HCL
39 Example Continue D) No. of moles of OH - required = no. of moles of H + present L acid N acid = L base N base N = M = L base 0.1 L base = 0.1/ 0.1 = 1 liter
40 Example How many ml of 0.05 N HCl are required to neutralize exactly 8g of NaOH? At the equivalent point: The no. of moles H + added = no. of moles OH - present L acid N acid = no. of (moles) equivalents of H + added wt NaOH / Mwt NaOH = no. of moles of NaOH (OH - ) present L acid N acid = wt NaOH / Mwt NaOH L acid 0.05 = 8 / 40 L acid = 0.2/ 0.05 = 4 L or 4000 ml
g. Looking at the equation, one can conclude that H 2 O has accepted a proton from HONH 3 HONH 3
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