`Zn|Zn^(2+)(c_(1)) || Zn^(2+)(c_(2))|Zn`. For this cell `DeltaG` is negative if `:`

Zn | Zn^(2+)(C_(1) || Zn^(2+)(C_(2)| Zn . For this cell DeltaG is negative if:

Zn | Zn^(2+)(C_(1) || Zn^(2+)(C_(2)| Zn . For this cell DeltaG is negative if:

Zn|Zn^(2+)(c_1M)||Zn^(2+)(c_2M)|Zn . For this cell, DeltaG would be negative , if :

Consider the following concentration cell : Zn(s)|Zn^(2+)(0.024M)||Zn^(2+)(0.480M)|Zn(s) which of the following statements is // are correct?

Consider the following concentration cell : Zn(s)|Zn^(2+)(0.024M)||Zn^(2+)(0.480M)|Zn(s) which of the following statements is // are correct?

For the cell Zn((s)) |ZN^(2+) ((aq)) || M^(X+)((aq))|M((s)) , different half cells and their standard electrode potentials are given below : If E_(ZN^(2+)|ZN^(@))= -0.76V , which cathode will give a maximum value of E_(cell)^(@) per electron transferred ?

In the following electrochemical cell Zn|Zn^(2+) ||H^(+)| pt(H_(2)) E^(@)_(cell) = E_(cell) . This will be :

For the galvanic cell: Zn(s) | Zn^(2+)(aq) (1.0 M) || Ni^(2+)(aq) (1.0 M) | Ni(s) , E_(cell)^o will be [Given E_((Zn^(2+)) /(Zn))^0 = -0.76 V , E_((Ni^(2+))/(Ni))^0= -0.25V ]

{:(Column-I,Column-II),((A)"Cathode",(p)"Primary cell"),((B)1"Coulomb",(q)"Secondary cell"),((C)"Dry cell",(r)6.24 xx 10^(18) "electrons"),((D)"Lead stron cell",(s)"Concentration cell"),((E)Zn|Zn^(2+)(0.10M)||Zn^(2+)(0.1M)|Zn,(u)"Positive terminal of electrochemical cell"):}

STATEMENT 1 : For the concentration cell Zn(s)|Zn_(C_(2))^(+2)(aq)|Zn for spontaneous cell reaction C_(1)ltC_(2) and STATEMENT 2 For concentration cell E_(cell)=(RT)/(nF)log_(e)(C_(2))/(C_(1)) for spontaneous rection E_(cell)=+verarrc_(2)gtc_(1)