Select the mass balance equation for the same solution. O2([Mn2+1+ [MnCit]+[MnOH]) = [MnCit] + [C1"] O...
Select the charge balance equation for an aqueous solution of MnCl, that ionizes to Mn2+, Cl", Mncl. and MnOH! O [H+1+2 [Mn2+] + [MnCit] + [MnOH*] = [CI] + [OH"] O [H+] + [Mn2+1+[MnCit] + [MnOH"] = [CI"] + [OH"] O Mn²+1+[MnCit]+[MnOH] = 2 [CI"] 2 [Mn2+] + [MnCit] + [Mnoht] = [CH]+[OH"] O [H] + [Mn2++ [MnCit]+[MOH"] = 2 [C1") + (OH") O [Mn+1+ [MnCit] + [MnOH+] = 2 [C1"] + [OH"] O [Mn2+] + [MnC'] + [MnOH+] =...
Complete and balance the following reactions: H2O2 + MnO4- ----> O2 + Mn2+ (acid solution) H2O2 + MnO4- ----> O2 + Mn2+ (base solution) * please clearly explain
2. Balance the following redox equation in a acidic solution: MnO4 (aq) + As«O6(s) → AsO4 (aq) + Mn2+(aq)
1. Balance the following equation in an acidic environment HCOOH + MnO4- CO2 + Mn2+
(a) Consider the following chemical reaction in acidic aqueous solution: ?MnO4- + ?H2O2+cH+ → ?Mn2++?O2+?H2O Write down (but do not solve) equations that we could use to balance this reaction by Gaussian elimination. Specify what is being “conserved” in front of each equation. (b) Suppose we let ? = 1. Could the reaction then be balanced with exactly one set of numbers ?, ?, ?, ?, ?? (Y/N)
1. Balance the following reaction in acidic solution. I-(aq) + MnO4-(aq) Mn2+(aq) + I2(s) 2. Write a balanced net ionic equation for the following reaction in basic solution using both methods for balancing a redox reaction: Zn(s) + NO3-(aq) à NH3 (aq) + Zn(OH)42- (aq) 3. Write a balanced net ionic equation for the following reaction in basic solution using both methods for balancing a redox reaction: MnO4-(aq) + C2H5OH(aq) à Mn2+(aq) + HC2H3O2 (aq)
Balance the following redox reaction: H2O2(aq) + MnO4-(aq) ↔ O2(g) + Mn2+(aq)
4. Sn2+(aq) + MnO4 (aq) → Sn"+ (aq) + Mn2+ (aq) Balance the above equation in basic solution and determine the oxidizing and reducing agent.
Balance each redox reaction in acid solution. Mn2+ BiO3 MnO4 + Bi3 (acid solution) P+Cu 2+ - (acid solution) Cu+H2PO4
104 ' (aq). 2. Balance the following redox equation in a acidic solution: MnO4 (aq) + As406(s) → Asos (aq) + Mn2+ (aq)