Bi (s) + Cl"(aq) + Hg (OH), Bicl, + Hg" 1. Write the two half- reactions (Oxidation and reduction reaction) 2. Balance the atoms undergoing oxidation and reduction/ all other atoms other than "O" and "H". 3. Balance atoms and charges in each half-reaction. a. Use H20 to balance o atoms. b. Use H* to balance H atoma c. Neutralize H* by adding the same number of OH to each side of the equation d. Use e to balance positive charges 4. Multiply each half-reaction by some integer so the the number of e- lost in the Oxidation half-reaction equals the number of e- gained in the Reduction half- reaction 5. Add the half - reactions together, canceling species that appear on both sides. The e- must completely cancel and not be present in the end.

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Using these steps how can you determine the balanced equation of this oxidation/reduction reaction

In Basic Solution:
Bi° (s) + cl (aq) + Hg (OH),"
Bicl, + Hg°
1.
Write the two half- reactions (Oxidation and reduction reaction)
2. Balance the atoms undergoing oxidation and reduction/ all other atoms other than
"0" and "H".
3.
Balance atoms and charges in each half-reaction.
a.
Use H20 to balance o atoms.
b. Use H* to balance H atoma
c. Neutralize H* by adding the same number of OH to each side of the equation
d.
Use e to balance positive charges
4. Multiply each half-reaction by some integer s0 the the number of e- lost in the
Oxidation half-reaction equals the number of e- gained in the Reduction half-
reaction
5. Add the half - reactions together, canceling species that appear on both sides.
The e must completely cancel and not be present in the end.
Transcribed Image Text:In Basic Solution: Bi° (s) + cl (aq) + Hg (OH)," Bicl, + Hg° 1. Write the two half- reactions (Oxidation and reduction reaction) 2. Balance the atoms undergoing oxidation and reduction/ all other atoms other than "0" and "H". 3. Balance atoms and charges in each half-reaction. a. Use H20 to balance o atoms. b. Use H* to balance H atoma c. Neutralize H* by adding the same number of OH to each side of the equation d. Use e to balance positive charges 4. Multiply each half-reaction by some integer s0 the the number of e- lost in the Oxidation half-reaction equals the number of e- gained in the Reduction half- reaction 5. Add the half - reactions together, canceling species that appear on both sides. The e must completely cancel and not be present in the end.
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