3. Determine AE for a reaction in which Ag+ is reduced to Ag(s) by oxidation of Br to Br2(aq) in an ideal solution at 25 °C containing 104 M Ag*, 103.7 M Br, and 105 M Br2(aq). Is this a spontaneous reaction? (Note: the reduction potential for Br2(aq) to Br is 1,098 mv)

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the COD test.
3. Determine AE for a reaction in which Ag+ is reduced to Ag(s) by oxidation
of Br to Br2(aq) in an ideal solution at 25 °C containing 10ª M Ag*, 103.7 M
Br, and 105 M Br2(aq). Is this a spontaneous reaction? (Note: the reduction
potential for Br2(aq) to Br is 1,098 mv)
4. Identify the electron donor and the electron acceptor, and calculate Ape°
and AF°. given that AF° and pe° for the conversion of l2ac) to I: is 535 mV
Transcribed Image Text:the COD test. 3. Determine AE for a reaction in which Ag+ is reduced to Ag(s) by oxidation of Br to Br2(aq) in an ideal solution at 25 °C containing 10ª M Ag*, 103.7 M Br, and 105 M Br2(aq). Is this a spontaneous reaction? (Note: the reduction potential for Br2(aq) to Br is 1,098 mv) 4. Identify the electron donor and the electron acceptor, and calculate Ape° and AF°. given that AF° and pe° for the conversion of l2ac) to I: is 535 mV
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