`XeF_(6)` fluorinates `I_(2)` to `IF_(7)` and liberates Xenon (g). `210 mmol` of `XeF_(6)` can yield a maximum of `_ mmol` of `IF_(7)` :

Calculate the standard free energy change (Delta^@) of the following reaction and say whether it is feasible at 373 K or not 1/2H_(2(g)) + 1/2I_(2(g)) to HI_((g)) , DeltaH_r^@ is + 25.95 kJ "mole"^(-1) . Standard entropies of HI_((g)).H_(2(g)) and I_(2(g)) are 206.3, 130.6 and 116.7 JK^(-1) "mole"^(-1) .

A particle P starts from the point z_0=1+2i , where i=sqrt(-1) . It moves first horizontally away from origin by 5 units and then vertically away from origin by 3 units to reach a point z_1dot From z_1 the particle moves sqrt(2) units in the direction of the vector hat i+ hat j and then it moves through an angle pi/2 in anticlockwise direction on a circle with centre at origin, to reach a point z_2dot The point z_2 is given by 6+7i (b) -7+6i 7+6i (d) -6+7i

The corner points of the bounded feasible region are (0, 1), (0, 7), (2, 7), (6, 3) (6, 0) (1, 0). For the objective function Z = 3x - y …….. At which point, Z is minimum ? (ii) At which point, Z is maximum ? (iii) The maximum value of Z is ......... (iv) The minimum value of Z is ..........