For a given reaction, ΔH = +35.5 kJ/mol and ΔS = +83.6 J/Kmol. The reaction is spontaneous ________. Assume that ΔH and ΔS do not vary with temperature.

a) at T > 298 K
b) at T > 425 K
c) at all temperatures
d) at T < 425 K

The mathematical representation of the Gibb's free energy as given below provides a basis for determining if a reaction is spontaneous or not.

ΔG = ΔH - TΔS

ΔG < 0 ⇒ The reaction is spontaneous

ΔG > 0 ⇒ The reaction is not spontaneous

ΔG = 0 ⇒ The equation is in equilibrium

The value of the enthalpy and entropy given are;

ΔH = +35.5 KJ/mol

ΔS = (+83.6 J/K.mol)*(KJ/1000 J) = 0.0836 KJ/K.mol

By setting;

ΔG < 0

Therefore;

35.5 - T × (0.0836) < 0

35.5 < 0.0836T

By dividing through by 0.0836; we have;

35.5/0.0836 < T

425 < T

In essence, the reaction is spontaneous at temperature, T > 425 in which case the Gibb's free energy: ΔG < 0.

For a given reaction, ΔH = +35.5 kJ/mol and ΔS = +83.6 J/Kmol. The reaction is spontaneous ________. Assume that ΔH and ΔS do not vary with temperature. a) at T > 298 K b) at T > 425 K c) at all temperatures d) at T < 425 K

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For a given reaction, ΔH = +35.5 kJ/mol and ΔS = +83.6 J/Kmol. The reaction is spontaneous ________. Assume that ΔH and ΔS do not vary with temperature.

a) at T > 298 K
b) at T > 425 K
c) at all temperatures
d) at T < 425 K