When the Ag+ concentration is 1.07 M, the observed cell potential at 298K for an electrochemical cell with the following reaction is 1.665V. What is the Zn2+ concentration? 2Ag+(aq) + Zn(s) → 2Ag(s) + Zn2+(aq) Answer:_____  M

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When the Ag+ concentration is 1.07 M, the observed cell potential at 298K for an electrochemical cell with the following reaction is 1.665V. What is the Zn2+ concentration?

2Ag+(aq) + Zn(s) → 2Ag(s) + Zn2+(aq)



Answer:_____  M
 

 

The Nernst Equation
A non-standard cell or half-cell potential can be calculated using the Nernst Equation:
RT
E = E° - – In Q
nF
where
E = potential under non-standard conditions
standard potential
E°
R = ideal gas constant
T = kelvin temperature
n = number of moles of electrons for the reaction as written
F = charge carried by 1 mol of electrons
Q = reaction quotient
It is customary to use the equation in a form where numerical values are substituted for R, T and F at a temperature of 25 °C.
For
R = 8.314 J mol'K!
T = 298.15 K
F = 96,485 J v-' mol"l
(8.314 J moll K)(298.15 K)
RT
0.0257 V
96,485 J V' mol
F
and the Nernst equation with the potentials in volts is:
(Previous
Next
Transcribed Image Text:The Nernst Equation A non-standard cell or half-cell potential can be calculated using the Nernst Equation: RT E = E° - – In Q nF where E = potential under non-standard conditions standard potential E° R = ideal gas constant T = kelvin temperature n = number of moles of electrons for the reaction as written F = charge carried by 1 mol of electrons Q = reaction quotient It is customary to use the equation in a form where numerical values are substituted for R, T and F at a temperature of 25 °C. For R = 8.314 J mol'K! T = 298.15 K F = 96,485 J v-' mol"l (8.314 J moll K)(298.15 K) RT 0.0257 V 96,485 J V' mol F and the Nernst equation with the potentials in volts is: (Previous Next
and the Nernst equation with the potentials in volts is:
0.0257
E = E°
In Q
natural logarithm
Sometimes it is more convenient to use base-10 logarithms, and the substitution of 2.303 log for In is made. (2.303 × 0.0257 = 0.0592)
Then, the Nernst equation for base-10 logs at 25 °C is:
0.0592
E = E°
log Q
base-10 logarithm
A common student error is to use the wrong kind of logarithm. Be sure, when you choose an equation, to use the correct logarithm.
Transcribed Image Text:and the Nernst equation with the potentials in volts is: 0.0257 E = E° In Q natural logarithm Sometimes it is more convenient to use base-10 logarithms, and the substitution of 2.303 log for In is made. (2.303 × 0.0257 = 0.0592) Then, the Nernst equation for base-10 logs at 25 °C is: 0.0592 E = E° log Q base-10 logarithm A common student error is to use the wrong kind of logarithm. Be sure, when you choose an equation, to use the correct logarithm.
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