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Question 2.11.2: Water is heated up with a small electric heater and the temp...

Water is heated up with a small electric heater and the temperature of the water is monitored. The heater provides heat to the system with a thermal power P_Q. The container is a calorimeter that is assumed to absorb no heat. Before turning on the heater, the temperature of the water is T_0 and its entropy is S_0. A linear temperature evolution given by T (t) = T_0 + At is observed. Deduce the entropy variation ΔS during that process.

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Since the system is simple, its evolution is reversible (2.23). The first law (2.22) implies
that,

\dot{U} (S) = T(S) \dot{S} = PQ          (2.22)

ΠS = 0.              (2.23)

δQ=P_Qdt=T(S)d(S).

\dot{S}=\frac{P_Q}{T(t)}=\frac{P_Q}{T_0+At}.

Thus, the entropy differential is expressed as,

dS=\frac{P_Q}{A} \Biggl(\frac{\frac{A}{T_0}dt }{1+\frac{A}{T_0}t } \Biggr)

When integrating this equation over time, we obtain,

S(t)=\int_{S_0}^{S(t)}{dS} =\int_{0}^{t}{\frac{P_Q}{A}\Biggl(\frac{\frac{A}{T_0}d\acute{t} }{1+\frac{A}{T_0}\acute{t} } \Biggr) } =S_0+\frac{P_Q}{A}\ln (1+\frac{A}{T_0}t).

Thus, the entropy variation in water is given by,

ΔS=S(Δt)-S_0=\frac{P_Q}{A} \ln (1+\frac{A}{T_0}Δt).

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