STATEMENT-1: If `((dE_(cell))/(dT))_Pgt0,` For a cell reaction then `/_\S` is positive.
STATEMENT-2: `/_\S = nFT((dE)/(dT))_p`

STATEMENT-1: E_(cell)^(@)=0 for a chloride ion concentration cell. STATEMENT-2: For this concentration cell where E_(cell)=(RT)/(nF)In[Cl^-]_(LHS)/([Cl^-]_(RHS))

STATEMENT -1: E_(cell)^(@) is negative for electrolytic cell. STATEMENT-2: /_\G^(@) is +ve for electrolyte cell (a) If both the statements are TRUE and STATEMENTS-2 is the correct explantion of STATEMENTS-1 (b)If both the statements are TRUE but STATEMENTS-2 is NOT the correct explanation of STATEMENTS-1 (c)If STATEMENTS-1 is TRUE and STATEMENTS-2 is FALSE (d)If STATEMENT-1 is FALSE and STATEMENT-2 is TRUE

STATEMENT-1 : The de-Broglie wavelength of an electron decreases as kinetic energy decreases. and STATEMENT- 2 : The de-Broglie wavelength lambda= ( h)/(sqrt( 2mKE))

STATEMENT-1: The voltage of mercury cell remains constant for longer period of time. STATEMENT-2: It is because net cell reaction does not involve ions.

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)

STATEMENT-1: lead storage battery is a galvanic cell without salt bridge. STATEMENT-2: A secondary cell is rechargeable cell.

STATEMENT-1 : The relation vectau=(dvecL)/(dt) is applicable in centre of mass frame, even though the centre of mass is accelerating. and STATEMENT-2 : The relation vectau=(dvecL)/(dt) can be directly applied in a non-inertial frame.

The standard electrode potential E^(@) and its temperature coefficient ((dE^(@))/(dT)) for a cell are 2V and -5xx10^(-4) Vk^(-1) at 300K respectively . The cell reaction is Zn(s)+ Cu^(2) (aq)+ Cu(S) . The standard reaction enthalpy Delta_(r) H^(@) at 300 K KJmol^(-1) is : ([use R = 8 JK^(-1)mol^(-1) and F = 96000Cmol^(-1)])

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. The temperature coefficient of the e.m.f of cell, ((dE)/(dT))_P si given by:

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 :