Acids and Bases

1. Acids and Bases A primer

2. Why are Acids and Bases Important? • They occur in every solution with water • Especially since they often come from water • They have exciting reactions with metals and other compounds • They can eat up metals and can cook fish • They have subtle, but very important effects on your body • Your breathing rate is determined by the acidity of your blood, for example

3. A First Definition:(Arrhenius) • Acids donate H+ ions to water: • HCl H+(aq) + Cl- (aq) • HNO3  H+(aq) + NO3- (aq) • Bases donate OH- ions to water • NaOH Na+(aq) + OH- (aq) • NH4OH   NH4+(aq) + OH- (aq)

4. Important Acids and Basesknow them forever Acids • HCl- Hydrochloric Acid • HNO3 – Nitric Acid • H2SO4- Sulfuric Acid • H3PO4- Phosphoric Acid • CH3COOH- Acetic acid • HF- Hydrofluoric Acid Bases • NaOH- Sodium Hydroxide • NH3 – Ammonia • NH4OH – Ammonium Hydroxide

5. Properties of Acids Acids • React with water to make hydronium and an anion • HCl + H2O  H3O+ and Cl- • Since all acid reactions occur in water, this often left out • Please view H3O+ as more or less the same as H+ • React w/ metals to make salt and hydrogen: • 2HCl + Zn  ZnCl2 + H2 • React with bases to make salt and water • HCl + NaOH  NaCl + H2O • Taste sour (the sourness of food is literally acidity)

6. Properties of Bases Bases • Dissociate in water to make hydroxide and a cation • NaOH Na+ and OH- • Most acid/base reaction occur in water, so one is always considering the ions. • React w/ proteins and lipids (fats) to break them apart): • They are used to “straighten” hair and can react with fat to make soap. Can also be used to dissolve hair in drains.) • React with acids to make salt and water • HCl + NaOH  NaCl + H2O • Taste bitter (your “bitter” taste buds detect OH-)

7. Reactions of Water • Water itself can and does produce acids and bases • The process is called “auto-ionization”. • H2O + H2O  H3O+ + OH- • Notice that is an equilibrium process. The products are rare in water, only about 2 parts per billion water molecules. Water is much more stable. • The Keq for water is [H3O+] [OH-] = 1.00 x 10-14 • (Why is H2O left out? Because it is a liquid!) • The Keq of water is often referred to as Kw (“w” for water)

8. Concentrations • Every drop of water has some H+ ions and some OH- ions. How much depends on what, if anything, else is in the drop. • In pure water, the H+ and OH - come from the water itself….the amounts will be equal. • So if [H3O+] = X , then [OH-] will also be equal to X • And… if the Keq for water is [H3O+] [OH-] = 1.00 x 10-14 • Then X * X = 1.00 x 10-14 • So in pure water, [H3O+] = 1.00 x 10-7 (the square root) • This is where pH of pure water = 7 comes from (more later)

9. Concentrations, continued • The amount of acids and bases is measured by pH scale. (We will discuss the scale more in the next class) • Because of the Kw, H+ will be inverse of OH- • If you add an acid to water… • The [H+] will be high, the [OH-] will be low, the pH will be below 7; the solution will be “acidic” • If you add a base to water… • The [OH-] will be high, the [H+] will be low, the pH will be above 7; the solution will be “basic” or “alkaline”