The cell potential `(E_(cell))` of a reaction is related as `/_\G=-nF E_(cell)`, where `/_\`G represents max. useful electrical work n=no. of moles of electrons exchanged during the section for reversible cell reaction `d(/_\G)=(/_\_rV)dp-(/_\_rS),dT` at constant pressure `d(/_\G)=-(/_\_rS).dT` :' At constant pressure `/_\G=/_\H-T./_\S` :. /_\G=/+\H+T(d(/_\G))/((dT)_P)` `((dE_(cell))/(dT))_P` is known as temperture coefficient of the e.m.f of the cell. At 300 k, `/_\` H for the reaction `Zn(s)+AgCl(s)toZnCl_2(aq)+2Ag(s)` is -218 KJ/mol while the e.m.f of the cell was 1.015V. `((dE)/(dT))_p` of the cell is :
A
`-4.2xx10^(-4)VK^(-1)`
B
`-3..81xx10^(-4)VK^(-1)`
C
`0.11VK^(-1)`
D
`7.62xx10^(-4)VK^(-1)`
Text Solution
Verified by Experts
The correct Answer is:
B
Topper's Solved these Questions
ELECTROCHEMISTRY
NARENDRA AWASTHI|Exercise Level 1 (Q.1 To Q.30)|1 Videos
ELECTROCHEMISTRY
NARENDRA AWASTHI|Exercise Level 1 (Q.91 To Q.120)|1 Videos
DILUTE SOLUTION
NARENDRA AWASTHI|Exercise Level 3 - Match The Column|1 Videos
The cell potential (E_("cell")) of a reaction is related as DeltaG = -nFE_("cell") , where DeltaG represents max. useful electrical work . n=no. of moles of electrons exchanged during the reactino of reversible cell reaction d(DeltaG) = (DeltaV)dP-(DeltaS).dT at constant pressure d(DeltaG) = - (DeltaS).dT :' At constant pressure DeltaG = DeltaG = DeltaH-TDeltaS .......(1) :. DeltaG = DeltaH + T((d(DeltaG))/(dT))_P ......... (B) ((dE_("cell"))/(dT))_(P) is known as temperature coefficient of the e.m.f of the cell When DeltaS increases, temperature coefficient of the emf of cell
DeltaG = DeltaH-TdeltaS and DeltaG = DeltaH + T[(d(DeltaG))/(dT)] " then " ((dE_("cell"))/(dT)) is
For the redox reaction : Zn(s) + Cu^(2+) (0.1M) to Zn^(2+) (1M) + Cu(s) taking place in a cell, E_("cell")^@ is 1.10 volt. E_("cell") for the cell will be
The reaction , 1//2H_(2(g)) + AgCl_((s)) to H_((aq))^(+) + Cl_((aq))^(-) + Ag_((s)) occurs in the galvanic cell :
The number of unit cells in 58.5 g of NaCl is approximately
How is E^(0) cell related mathematically to the equilibrium constant K_(c) of the cell reaction ?
How is Gibbs energy (G) related to the cell emf (E) mathematically ?
In an electrochemical cell Delta G= Delta H
The chemical reaction 2AgCl_((s)) + H_(2(g)) to 2HCl_((aq)) + 2Ag_((s)) taking place in a galvanic cell is represented by the notation.
