The densities of graphite and diamond at `298K` are `2.25` and `3.31gcm^(-3)` , respectively. If the standard free energy difference `(DeltaG^(0))` is equal to `1895Jmol^(-1)` , the pressure at which graphite will be transformed into diamond at `298K` is

In the reaction 1/2N_(2(g)) + 3/2 H_(2(g)) to NH_(3(g)) . The standard entropies of N_(2(g)), H_(2(g)) and NH_(3(g)) are 191.6,130.5 and 192.5 JK^(-1) "mol"^(-1) respectivly. If free energy charge of the reaction is -16.67 kJ. Calculate the Delta H_("reaction")^@ for the formation of NH_3 at 298 K.

The equivalenet conductivites of acetic acid at 298K at the concentration of 0.1M and 0.001M are 5.20 and 49.2S cm^(2) eq^(-1) respectively. Calculate the degree of dissociation of acetic acid at the these concentrations. Given that, lambda^(prop) (H^(+)) and lambda^(prop) (CH_(3)COO^(-)) are 349.8 and 40.9 ohm^(-1) cm^(2) mol^(-1) respectively.

Find the pressure in a bubble of radius 0.2 cm formed at the depth of 5cm from the free surface of water . The surface tension of water is 70 dyne cm^(-1) and its density is 1gcm^(-3) . Atmospheric pressure is 10^(6) dyne cm^(-2) .The gravitational acceleration is 980cms^(-2) .

If the area of the triangle with vertices (2,5), (7, k) and (3,1) is 10, then find the value of k