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Acids and Bases. Ionization of Water. Only happens to a small amount of water molecules H 2 O separates into ______________ Not the whole story H+ never occurs on its own In reality, another H 2 O molecule picks it up and becomes ___________________. Acids and Bases.
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Ionization of Water • Only happens to a small amount of water molecules • H2O separates into ______________ • Not the whole story • H+ never occurs on its own • In reality, another H2O molecule picks it up and becomes ___________________
Classifying Acids and Bases • Arrhenius • Acid- substance that dissociates into ______________ • For Example: ___________________ • Base- substance that dissociates into ______________ • For example: __________________ • Does not explain bases without an OH ion
Classifying Acids and Bases (cont) • Brønsted-Lowry • Acid - _______________ • For example: HCl and H2SO4 • Base - ________________ • For example: NH3 and OH-
Conjugate Acid and Bases • Occur on the other side of acid base equations. • Lets look again at • NH3 is a ________. It will accept a proton (H+) • H2O is an _______. It will donate a proton (H+) • NH4+ is NH3’s _____________. It can donate a proton (H+) to become NH3 again • OH- is water’s ______________. It can accept a proton (H+) to become H2O again
Amphiprotic • Amphiprotic – • Substances that can act like an acid or a base • Water is an amphiprotic substance. • H2O can accept a proton to become H3O+ • H2O can donate a proton to become OH-
Strength of Acids and Bases • Depends on how much they dissociate in water • Strong • Considered to dissociate _____________ in water • Weak • Only partially dissociate in water • Reaction is _____________________ • Conjugate pairs • Strength is ______________________ • For example: Strong acids have weak conjugate bases
Acids • Strong acids • ________ • ________ • ________ • ________ • ________ • ________ • ________ • All have 100% of the molecules break apart. There is no reverse reaction. • Weak acids • All others
Polyprotic Acids • Have multiple ______ • H2SO4 • H2SO4 gives up 1 H+ to form HSO4- • This happens to ______ of the molecules since H2SO4 is strong • HSO4- gives up another H+ to form SO4-2 • This only happens to some HSO4- because it is _______ • Solution will contain • _________ of water molecules • H3O+ molecules (mostly from the first H+ but some from the second and from ionization of water) • HSO4- • a little bit of SO4-2 • A little bit of OH- (from the ionization of water)
Acid Names • Binary acids (______________) • Prefix __________ • Root of element name • Suffix ___________ • Add acid • For example: HCl is ___________________ • Acids with Oxygen (_________________) • Root name of polyatomic (with polyatomic prefix if applicable) • Some polyatomic roots are modified slightly to be easier to say • Suffix • -ic with polyatomics ending in _______ • -ous with polyatomics ending in _______ • Add acid • For example: H2SO4 is ______________
Bases • Strong bases • Group 1 metals with OH- • Ca, Sr, and Ba with OH- • These three are not very soluble in water, but the amount that does dissolve ionizes completely. • Weak bases • All others
Chemical Equilibrium • Reversible reactions • Indicated with a _________ • Both reactions are happening at the same time • System reaches equilibrium when both are happening at same _____ • At equilibrium • Could have lots of reactant and little product • Could have lots of product and little reactant • Could have equal amounts of both • Changes to the system can shift equilibrium • Temperature • Pressure • Adding reactants or products
Equilibrium Expressions • Mathematical way to represent equilibrium • For the equation, ________________________ • K = [C]c [D]d [A]a [B]b • K is the equilibrium constant for the equation • [ ] indicates the concentration of each substance in mol/L (M) • _______________ are not entered into the expression
Ionization of Water • 2H2O(l) H3O+(aq) + OH-(aq) • This equilibrium ___________________ • In other words, there is far more water molecules than hydronium and hydroxide ions in a sample • Kw = ________________ • Kw = 1.0 x 10-14 • In pure water and neutral solutions, [H3O+] and [OH-] are 1.0 x 10-7 M • In acidic solutions, ____________________________ • In basic solutions _____________________________
pH • pH • Stands for potential of Hydrogen (really hydronium) • ______________ scale • pH = -log [H+] or [H+] = 10-pH • Values between 0-14 with each number representing a 10-fold increase from the previous number • pH 7 is ________ • pH = 7 is ________ • pH 7 is ________
pOH • pOH = -log [OH-] or [OH-] = 10-pOH • Opposite scale • pOH 7 is ________ • pOH = 7 is ________ • pOH 7 is _________
Indicators • Compounds that change color in the presence of different levels of pH
Soil pH 5.0-5.5 Soil pH 6.0-6.5
Neutralization (Acid-Base Reaction) • Special type of double displacement reaction • Acid + Base ___________________
Titration • Process of neutralizing an acid (or base) with an unknown concentration with a base (or acid) of a known concentration • Moles of H3O+ must equal moles of OH- for neutralization to occur • Often indicators are used to determine the end of the reaction • VaMa = VbMb • Va = volume in L of acid • Ma = molarity of acid • Vb = volume in L of base • Mb = molarity of base