Order the following sets of oxidizing agents by increasing strength, and explain your reasoning: Ag^+1(aq), I2(aq) and MnO4^-1(aq) in acidic solution
Order the following sets of oxidizing agents by increasing strength, and explain your reasoning: Ag^+1(aq), I2(aq)...
Arrange the oxidizing agents in order of increasing strength. Sn +4, Ag+, ClO3-
(a) Assuming standard conditions, arrange the following in order of increasing strength as oxidizing agents in strong acid: cd2+, H2O,, Pb2+, Fe2+, Ce4+ Ocd2+ Ocd2+ он202 OPb2+ OFe2+ O Ce4+ o cd2+ он202 OPb2+ o Fe2+ OCe4+ o cd2+ он202 OPb2+ он202 O Pb2+ OFe2+ O Ce4+ < o cd2+ он202 o Pb2+ OFe2+ O Ce4+ O Fe2+ O Ce4+ (b) Assuming standard conditions, arrange the following in order of increasing strength as reducing agents in strong base: Ag, Br2,...
Balancing Oxidation–Reduction Reactions (Section)Complete and balance the following equations, and identify the oxidizing and reducing agents:(a) Cr2O72-(aq) + I-(aq)→Cr3+(aq) + IO3-(aq) (acidic solution)(b) MnO4-(aq) + CH3OH(aq) →Mn2+(aq) +HCO2H(aq) (acidic solution)(c) I2(s) + OCl-(aq)→IO3-(aq) + Cl-(aq) (acidic solution)(d) As2O3(s) + NO3-(aq)→H3AsO4(aq) + N2O3(aq) (acidic solution)(e) MnO4-(aq) + Br-(aq)→MnO2(s) + BrO3-(aq) (basic solution)(f) Pb(OH)42-(aq) + ClO-(aq)→PbO2(s) + Cl-(aq) (basic solution)
(a) Assuming standard conditions, arrange the following in order of increasing strength as oxidizing agents in strong acid: H+, Hg2+, Cu2+, Ba2+, Pb2+ О н+ Ht OHt OHt Ht Hg2+ Hg2+ Hа2+ Hg2+ Hg2+ OCu2+ OCu2+ OCu2+ Cu2+ OCu2+ О Ва2+ О Ва2+ о Ва2+ О Ва2+ Вa2+ О рb2+ О Рp2+ Pb2+ Pb2+ OPh2+ (b) Assuming standard conditions, arrange the following in order of increasing strength as reducing agents in strong base: Zn, Br2, F, Na, Mg OZn Zn...
(a) For the disproportionation reaction IO3- + I- = I2(aq), Identify the reducing and oxidizing agents, write a balanced equation for each half-reaction, and write the complete and balanced net ionic reaction. You can assume an acidic environment if need be. (b) ClO2– is oxidized to ClO4– and IO4– is reduced to IO3–. What is the balanced equation for each half-reaction? What is the complete and balanced net ionic reaction for the full reaction? You can assume an acidic environment...
1. 1. Balance the following skeleton reactions and identify the oxidizing and reducing agents: (a) Mn+ (aq) + BiO3 (aq) →MnO4 (aq) + Bit (aq) (acidic) (b) Fe(OH)2(s) + Pb(OH)3 (aq) Fe(OH)3(s) + Pb(s) (basic)
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)
-410 -56_13l +.41 I v 3. Arrange in order of increasing strength as reducing agents. Fe+2 -1'' - Sn2 - Cr2 Ar*< Snat < Explain your reasoning: The more positive un elements Standard reductron potekla it steduced. The more readily an elerourt is to reduce, tle Shonger it is as an oxidea L 'entrul is the the opposite A true for reducing agerds, the more negative a elements, the better Crated - Standard reduction blues were fupled shee they were...
7. Balance the following equations using the oxidation number method. Identify the oxidizing and reducing agents. In basic solution: _MnO4 (aq) +_ CIO (aq) → _MnO2 (s) +_ CIO. (aq) In acidic solution: KCIO3(aq) + _Br" (aq) → __KCI (aq) + ___ Br2 (aq)
a.
Cl2
b.
F2
c.
Br2
d.
I2
e.
All of the halogens have equal strength as oxidizing agents.
E°(V +2.87 +1.359 +1.065 +1.23 +0.799 Table 20.1 Half Reaction F2 (8) 2e → 2F- (ag) Cl2(8) 2e → 2Cl- (aq) Br21) 2e → 2Br" (ag) 02 (elut 4H+ (ag) + 4e + 2H20 (1) Agte → Ag (5) Fe3+ (aq) → Fe2+ (aq) 12 (5) + 2e – 21 (ag) Cu2+ + 2e - Cu (s) 2H+ + 2e →...