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

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

The bond energies of C=C and C-C at 298 K are 590 and 331 kJ mol^(-1) , respectively. The enthalpy of polymerisation per mole of ethaylene is

The densities of graphite and diamond are 22.5 and 3.51 gm cm^(-3) . The Delta_(f)G^(ɵ) values are 0 J mol^(-1) and 2900 J mol^(-1) for graphite and diamond, respectively. Calculate the equilibrium pressure for the conversion of graphite into diamond at 298 K .

Densities of diamond and graphite are 3.5 and 2.3 g mL^(-1) , respectively. The increase of pressure on the equilibrium C_("diamond") hArr C_("graphite")

Densities of diamond and graphite are 3 and 2 g mL^(-1) , respectively. The increase of pressure on the equilibrium C_("diamond") hArr C_("graphite")

The standard enthalpy of diamond is zero at 298K and 1 atm pressure.

The standard free energy of formation of NO(g) is 86.6 kJ/ mol at 298 K what is the standard free energy of formation of NO_(2) g at 298 k? K _(p)= 1.6 xx 10^(12)

The standard state Gibbs free energies of formation of ) C(graphite and C(diamond) at T = 298 K are Delta_(f)G^(@)["C(graphite")]=0kJ mol^(-1) Delta_(f)G^(@)["C(diamond")]=2.9kJ mol^(-1) The standard state means that the pressure should be 1 bar, and substance should be pure at a given temperature. The conversion of graphite [ ) C(graphite ] to diamond [C(diamond)] reduces its volume by 2xx10^(-6)m^(3) mol^(-1). If ) C(graphite is converted to C(diamond) isothermally at T = 298 K, the pressure at which ) C(graphite is in equilibrium with C(diamond), is ["Useful information:"1J=1kg m^(2)s^(-2),1Pa=1kgm^(-1)s^(-2),1"bar"=10^(5)Pa]

Standard enthalpy and standard entropy change for the oxidation of NH_(3) at 298K are -382.64KJ mol^(-1) and 145.6Jmol^(-1) respectively. Standard free energy change for the same reaction at 298K is

The enthalpy of combustion of methane, graphite and dihydrogen at 298 K are, -890.3 kJ mol^(-1) -393.5 kJ mol^(-1) , and -285.8 kJ mol^(-1) respectively. Enthapy of formation of CH_(4)(g) will be