2. Balance the following reaction that occurs in acid, using the half-reaction method. I-1(aq) + CrO4-1(aq) --> I2(s) + Cr+3(aq)
When this reaction is balanced, there will be (?) H+(aq) and (?) H2O(l) in the final balanced equation. (Enter numbers without the plus sign.)
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2. Balance the following reaction that occurs in acid, using the half-reaction method. I-1(aq) + CrO4-1(aq)...
2. Balance the following reaction that occurs in acid, using the half-reaction method. I-1(aq) + CrO4-1(aq) --> I2(s) + Cr+3(aq) When this reaction is balanced, there will be (A) H+(aq) and (B) H2O(l) in the final balanced equation. (Enter numbers without the plus sign.) 3. Ca(NO3)2(aq) + K2CO3(aq) --> CaCO3(s) + 2 KNO3(aq) 50 mL of 1.000 M Ca(NO3)2 was reacted with excess potassium carbonate. What mass of calcium carbonate will be made? Repeat your answer to two sig figs...
5. Balance the following reaction that occurs in base, using the half-reaction method. NO(g) + MnO4-1(aq) ---> NO3-1(aq) + MnO2(s) When this reaction is balanced, there will be (A) OH-1(aq) and (B) H2O(l) in the final balanced equation. (Enter numbers without the plus sign.) 6. 0.122 grams of an unknown triprotic acid was neutralized with 37.2 mL of a 0.125 M NaOH solution. What is the Molar Mass of the unknown acid? Report the answer to three sig figs and...
Balance the redox reaction below using the half-reaction method. NbH(aq) + Mn(s) —+ND(8) + Mn2+ (aq) (a) To show your method, write the balanced half reactions below. Use the smallest integer coefficients possible and show electrons as e'. If a box is not needed, leave it blank. (Coefficients of I are not needed). Oxidation half-reaction: Reduction half-reaction: (b) To show your balanced equation, enter an integer in each of the boxes. If the integer is "1," do enter it even...
1. (a) Balance the following half-reactions by the ion-electron half-reaction method: (i) (acid solution) BiO;- (aq) → BIO+ (aq) (ii) (acid solution) C002 (s) → Co2+ (aq) (iii) (base solution) Cr(OH).- (aq) → CrO2- (aq) (iv) (base solution) TeO 2- (aq) → H.Te0.2- (aq) (b) Which of the above equations are oxidation half-reactions? (c) Give the formulas of the reactants that become oxidized in the course of the reaction.
1. (a) Balance the following half-reactions by the ion-electron half-reaction method: (i) (acid solution) HSO3- (aq) → SO42- (aq) (ii) (acid solution) Pu(OH)4 (8) ► Pu+ (aq) (iii) (base solution) CN- (aq) → OCN- (aq) (iv) (base solution) RhO42- (aq) → Rh,03 (s) (b) Which of the above equations are oxidation half-reactions? (c) Give the formulas of the reactants that become oxidized in the course of the reactic Balance the following redox equations by the ion-electron half-reaction method: (a) (acid...
Balance the redox reaction below using the half-reaction method. Sn(s) + Re3+ (aq) Sn2+(aq) + Re(s) (a) To show your method, write the balanced half reactions below. Use the smallest integer coefficients possible and show electrons as e. If a box is not needed, leave it blank. (Coefficients of 1 are not needed). Oxidation half-reaction: + Reduction half-reaction: + (b) To show your balanced equation, enter an integer in each of the boxes but if the integer is "1", you...
1. (a) Balance the following half-reactions by the ion-electron half-reaction method: (i) (acid solution) NO3- (aq) + N2O (g) (ii) (acid solution) Fe042- (aq) + Fe3+ (aq) (iii) (base solution) Fe203 () → Fe(OH)2 (S) (iv) (base solution) Cu20 (s) + Cu(OH)2 (S) (b) Which of the above equations are oxidation half-reactions? (c) Give the formulas of the reactants that become oxidized in the course of the reaction.
3. Balance the following redox equations by the ion-electron half-reaction method: (a) (acid solution): Cr0(aq) + U" (aq) → Cr" (aq) +UO; (aq) (b) (acid solution): Cr(s) + O2(g) → Cr* (aq) (C) (basic solution): P. (s) + OH' (aq) → PH; (g) + H2PO2 (aq)
Balance the following half-reaction by adding the appreciate number of electrons. Fe^2+ (aq) --> Fe^3+ (aq) AgI(s) --> Ag(s)+I^-(aq) VO2^+(aq)+2H^+(aq) --> VO^2+(aq)+H2O(l) I2(s)+6H2O(l) --> 2IO3^-(aq)+12H^+(aq)
(a) Balance the following half-reactions by the ion-electron half-reaction method: (i) (acid solution) Cl– (aq) → ClO3– (aq) (ii) (acid solution) MoO3 (s) → Mo (s) (iii) (base solution) P4 (s) → H2PO2– (aq) (iv) (base solution) Se (s) → SeO32– (aq) (b) Which of the above equations are oxidation half-reactions? (c) Give the formulas of the reactants that become oxidized in the course of the reaction.