S(T) = S(0) + ∫[C/T]dT (from 0 to T)
Without the exact function for C(T), we cannot calculate the exact value of S(0).
ΔS = 0 as T → 0 K
to relate entropy and heat capacity.
Since we are not given C, we cannot calculate the exact value of ΔS. However, we can say that ΔS approaches 0 as T approaches 0 K. The heat capacity of a system is given by C = 0.1T J/K. Calculate the entropy change between 10 K and 5 K. third law of thermodynamics problems and solutions pdf
Using the equation:
The third law of thermodynamics states that as the temperature of a system approaches absolute zero (T = 0 K), the entropy of the system approaches a minimum value. Mathematically, this can be expressed as: S(T) = S(0) + ∫[C/T]dT (from 0 to
ΔS = C * ln(10/5) = C * ln(2)