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Acid/Base Reactions. Acids. Brønsted -Lowry – proton donor Arrhenius – acids produce H + ions in water HCl H + + Cl - HCl , HBr , HI, H 2 SO 4 , HC 2 H 3 O 2. Bases. Brønsted -Lowry – proton acceptor Arrhenius – bases produce OH - ions in water NaOH Na + + OH -
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Acids • Brønsted-Lowry – proton donor • Arrhenius – acids produce H+ ions in water • HCl H+ + Cl- • HCl, HBr, HI, H2SO4, HC2H3O2
Bases • Brønsted-Lowry – proton acceptor • Arrhenius – bases produce OH- ions in water • NaOH Na+ + OH- • NaOH, KOH, LiOH, Ba(OH)2, Ca(OH)2
Acid-Base Reactions • Net ionic equation for acid-base reactions • H+ + OH- H2O • Acid + base H2O + salt
Titrations • Procedure for determining the concentration of an unknown acid (or base) solution using a known concentration of a base (or acid) • Titrant – solution of known concentration • Analyte – solution of unknown concentration • Known volume • Indicator – substance added at the beginning of the titration that changes color at the equivalence point
Titrations • Equivalence Point - Point at which exactly enough base solution has been added to the acid until the acid is neutralized • Concentration (M) and volume (V) of base are known, number of moles of acid can be calculated moles of acid neutralized • Acid concentration = liters of acid solution
Example • What volume of 0.900 M HCl is required to completely neutralize 25.0 g of Ca(OH)2? • 1. Write and balance the equation • 2. Determine number of moles of Ca(OH)2 • 3. Determine the number of moles of HCl required to neutralize • 4. Determine the volume of acid that contains the required amount of moles of HCl
Acids/Bases • Acids - Donate H+ into solution • Acidic solutions have lots of H+ ions • Proton donors • Bases – Donate OH- into solutions • Basic solutions have lots of OH- ions • Proton acceptors • Water is a nonelectrolyte • Doesn’t exist as ions in solution • H+ + OH- H2O
Strength • Strong acids and bases completely dissociate into ions • Acids produce H+ (or H3O) • Bases produce OH- • Weak acids/bases cannot dissociate as easily • Weak acids only partially dissociates in water to give H+ and an anion • HF H+ + F- • Weak bases – most are anions of weak acids • Don’t give OH-, react with water to form OH- • C2H3O2- (weak base) from HC2H3O2 (weak acids)
Conjugates • Conjugate pairs – acid and base pair • One can accept a proton and the other can donate • NH3 + H2O NH4+ +OH- • NH3(base) NH4+ (conjugate acid) • H2O(acid) OH- (conjugate base) • Stronger acid/base, weaker the conjugate
Sample • A student carries out an experiment to standardize (determine the concentration of) a NaOH solution. The student weighs out 1.3009 g of potassium hydrogen phthalate (KHP – KHC8H4O4). KHP has one acidic hydrogen. The student dissolves the KHP in distilled water, adds phenolphthalein, and titrates the resulting solution with the NaOH solution to the endpoint. The difference between the final and initial burette readings is 41.20 mL. Calculate the concentration of NaOH solution.