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REDOX Oxidation-Reduction Reactions Oxidation-Reduction Reactions • Electrons are transferred from 1 atom to another. • All single-replacement & combustion rxns are redox rxns. Oxidation = loss of electrons. LOSS of ELECTRONS = OXIDATION LEO Reduction = gain of electrons. GAIN of ELECTRONS = REDUCTION GER REDOX • Oxidation & Reduction are complementary. • They occur together & simultaneously or not at all. LEO GOES GER!!! Oxidation of Cu Oxidation Numbers • In Ionic Compounds: the number of electrons lost or gained by an atom when it forms ions. Oxidation states of Vanadium Assigning Oxidation Numbers 8 Rules for Oxidation Numbers 1. of a free, uncombined element = 0. Na He O2 N2 S8 Cl2 2. of a monatomic ion = charge on ion. +2 -1 +3 Ca = +2. Cl = -1. Al P = +3. Remember: Ions occur in ionic compounds: CaCl2, Al(NO3)3, etc. 8 Rules for Oxidation Numbers 3. Fluorine is always -1. CF4 4. Hydrogen is nearly always +1, except when it’s bonded to a metal. Then it’s -1. H2O, HNO3, H2SO4 LiH CaH2 NaH 8 Rules for Oxidation Numbers 5. Oxygen is nearly always -2 except when its -Bonded to fluorine, where O is +2 OF2 -In the peroxide ion, where O is -1. O22- 8 Rules for Oxidation Numbers 6. The sum of oxidation numbers in a neutral compound is 0. H2O CO2 NO SO3 7. The sum of oxidation numbers in a polyatomic ion = charge of the ion. Sum in SO42- = -2. Sum in NO3- = -1. 8 Rules for Oxidation Numbers 8. In covalent compounds, the oxidation number of the more electronegative atom is the negative charge it would have if it was an ion. *NH3: N = -3, H = +1. SiCl4: Si = +4, Cl = -1. Assign Oxidation Nos • • • • • • • • • KCl K = +1, Cl = -1 CaBr2 Ca = +2, Br = -1 CO C = +2, O = -2 C = +4, O = -2 CO2 Al(NO3)3 Al = +3, O = -2, N = +5 Na3PO4 Na = +1, O = -2, P = +5 H2S H = +1, S = -2 NH4+1 N = -3, H = +1 SO3-2 S = +4, O = -2 Electrons are Negative! • Why do we use the word “reduced” when electrons are gained? Look at how the oxidation number changes. For example, if Cl gains an electron it becomes Cl-1. The oxidation number decreased from 0 to -1. The oxidation number was reduced. Writing Equations • Even though oxidation & reduction occur together, we can write separate equations for each process. • Called Half-Reactions. • In order to balance a redox equation, we have to split the full equaton into halfreactions. Conservation of Mass • # of atoms of each type is the same on both sides of the equation. • Still holds for half-reactions. • Do this step first. Conservation of Charge • Total charge on LHS must equal total charge on RHS. • In the past, we usually had both sides neutral. (0 = 0.) • Note: Total charge can be nonzero. Just has to be equal on the 2 sides. • If not balanced, add electrons to whichever side is too positive. Reduction Half-Reactions Electrons are gained so • I2 + 2e- 2Ithey are like a reactant! • O2 + 4e- 2O-2 • Half-reactions must demonstrate conservation of mass & conservation of charge. • # of atoms of each element on LHS equals “ “ “ “ “ “ “ RHS. • Total charge on LHS = Total charge on RHS Oxidation Half-reactions • K K1+ + 1e• Fe2+ Fe3+ + 1e• Cu Cu2+ + 2e- Electrons are lost so they appear on the product side! • Total Charge on LHS = Total Charge on RHS • # atoms LHS = # atoms RHS Identifying Half-Reactions • Reduction: electron term is on reactant side. • Oxidation: electron term is on product side. Vocabulary Interlude • Oxidizing Agent: Is itself reduced. Accepts electrons from something else – aids oxidation for another species. • Reducing Agent: Is itself oxidized. • Loses electrons to something else – aids reduction for another species. Figuring out what is what! • Given an unbalanced equation. • Goal: Balance it. • Procedure: – Assign oxidation numbers to everything – Split into half-reactions – Balance them separately – “Match” the electrons – Add them together What’s oxidized & what’s reduced? USE OIL RIG 4 3 2 1 0 -1 -2 -3 -4 2) And if you’re lucky you strike oil & it shoots up 1) You dig down with an oil rig Oxidizing & Reducing Agents • They are both ALWAYS on the reactant side. • Identify them by seeing how the oxidation 4 numbers change. 3 0 +2 +2 0 Mg + Cu2+ Mg2+ + Cu Mg is oxidized, so Mg is the reducing agent! 2 1 0 -1 -2 -3 -4 Oxidizing & Reducing Agents • What’s oxidized & what’s reduced: 0 +2, -1 +2, -1 0 Ca + FeCl2 CaCl2 + Fe • Assign oxidation numbers • Figure out what increases & what decreases. Ca is oxidized; Fe2+ is reduced. Ca = reducing agent; FeCl2 = oxidizing agnt. 4 3 2 1 0 -1 -2 -3 -4 Oxidizing & Reducing Agents 3, -1 2, -1 2, -1 4, -1 2 FeBr3 + SnBr2 2 FeBr2 + SnBr4 Fe3+ is reduced to Fe2+ Sn2+ is oxidized to Sn4+ FeBr3 is the oxidizing agent. SnBr2 is the reducing agent.