(R) would be :

A charge 2Q is distributed over three concentric non-conducting spherical shells of radii a, b, c (a < b < c) such that their surface charge densities are equal to one another. The total potential at a point at distance r from their common centre, where r < a , would be:

When fats are respiratory substrate the value of R.Q would be

Two ideal batteries of emf V_(1) and V_(2) and three resistance R_(1)R_(2) and R_(3) are connected The current in resistance R_(2) would be zero if

Two ideal batteries of emf V_1 and V_2 and three resistances R_1, R_2 and R_3 are connected as shown in the figure. The current in resistance R_2 would be zero if

Two ideal batteries of emf V_(1)andV_(2) and these resistances R_(1),R_(2)andR_(3) are connected as shown in the figure . The current in resistance R_(2) would be zero if

The Wheatstone bridge shown in Fig. here, gets balanced when the carbon resistor used as R_(1) has the colour code (Orange, Red, Brown). The resistors R_(2) and R_(4) are 80 Omega and 40 Omega , respectively. Assuming that the colour code for the carbon resistor, used as R_(3) , would be:

For the reaction takes places at certain tempreature NH_(4) HS(s) hArrNH_(3)(g) + H_(2)S(g) , if eqilibrium pressure is X bar, then Delta_(r) G^(@) would be

A charge Q is distributed over three concentric spherical shells of radii a, b, c (a lt b lt c) such that their surface charge densities are equal to one another. The total potential at a point at distance r from their common centre, where r lt a, would be :

R.Q. of respiratory substrate C_(99)H_(72)O_(6) would be