Answer:
The denatured enzyme is more ordered.
Explanation:
Remember gibbs free energy equation, ∆G= ∆H - T∆S
Now since we aredealing with how ordered the original or denatured enzyme is, we are looking at their entropy.
When change in entropy us positive, then the original enzyme is more ordered but when it is negative, then the denatured enzyme is more ordered.
Making ∆S the subject formula from the equation,
∆S =∆G-∆H/T
Therefore protein denaturization is both endothermic and spontaneous. Temperature will always be positive.
∆S= (-) - (+)/(+)
∆S= -
Therefore the change in entropy is negative, the enzyme is more ordered and the denatured enzyme is more ordered than the original.
Answer:
The denatured enzyme is more ordered
Explanation:
Because we want to determine whether the original or denatured enzyme is more ordered, it is an entropy.
Energy equation = ΔG = ΔH - TΔS
if the change in entropy is Positive, original enzyme is more ordered and if the change in original enzyme is negative, the denatured enzyme is more ordered.
ΔS= (ΔG- ΔH )/T
Protein denaturation is endothermic and spontaneous.
since the change in entropy is negative, enzyme become more orderly and the denatured enzyme is more ordered than the original enzyme
