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BALANCING REDOX EQUATIONS Honors Chemistry Two Methods: 1.) Oxidation-Number Changes – comparing the increase/decrease in oxidation number 2.) Half-Reactions – balance half-reactions separately Oxidation Number Changes 1. Start with skeleton equation (unbalanced). 2. Assign oxidation numbers to all the atoms in the equation. Write the number above the atoms. 3. Identify which atoms are oxidized and which are reduced. 4. Use the “arrow” method to connect the atoms that undergo oxidation and reduction and write the number of electrons lost/gained. 5. Make the total increase in oxidation number equal to the total decrease on oxidation number by using appropriate coefficients. 6. Self-check to make sure the equation is balanced for both atoms and charge. EX. Fe2O3(s) + CO(g) Fe(s) + CO2(g) Half-Reactions 1. Start with the skeleton equation (unbalanced). 2. Write the unbalanced equation in ionic form (separate all (aq) species). 3. Write separate half-reactions for the oxidation and reduction processes. 4. Balance the atoms in the half-reactions a. To balance oxygen, add enough H2O molecules to balance the half-reaction. b. To balance Hydrogen (from the water or other sources) add H+(aq). 5. Add enough electrons to one side of each half-reaction to balance the charges. (**Remember electrons carry a negative charge) 6. Multiply each half-reaction by a coefficient to make the number of electrons equal in both oxidation and reduction reactions. 7. Add the balanced half-reactions to show an overall equation and subtract terms that appear on both sides of the equation. EX: S(s) + HNO3(aq) SO2(g) + NO(g) + H2O(l)
