Differential Equations and Linear Algebra (4th Edition)

Published by Pearson
ISBN 10: 0-32196-467-5
ISBN 13: 978-0-32196-467-0

Chapter 1 - First-Order Differential Equations - 1.4 Separable Differential Equations - Problems - Page 44: 27

Answer

See below

Work Step by Step

a) Given: $T_m=75$ Apply Newton's Law of Cooling: $\frac{dT}{dt}=-k(T-T_m)\\ \rightarrow \frac{dT}{dt}=-k(T-75)\\ \rightarrow \frac{1}{T-75}\frac{dT}{dt}=-k$ Integrate: $\int \frac{1}{T-75}dT=\int -k.dt\\ \rightarrow \ln(T-75)=-kt+c_1$ Solve for $T$ For 10 minutes: $T=75+c_1e^{-kt}\\ \rightarrow 415=75+c_1e^{-10k}\\ \rightarrow c_1e^{-10k}=340$ For 20 minutes: $T=34+c_1e^{-kt}\\ \rightarrow 347=75+c_1e^{-20k}\\ \rightarrow c_1e^{-20k}=272$ Find $k$: $\frac{ c_1e^{-10k}}{ c_1e^{-20k}}=\frac{340}{272}\\ \rightarrow e^{10k}=1.25\\ \rightarrow k=0.022$ Obtain: $c_1e^{-10(0.022)}=340\\ 0.8c_1=340\\ c_1=425$ Hence, $T(0)=75+425e^{-(0.022)(0)})\\ \rightarrow T(0)=75+425\\ \rightarrow T(0)=500$ The temperature of the furnace is $500 \circ$C b) When the coal reaches 100: $100=75+425e^{-0.022t}\\ \rightarrow e^{-0.022t}=\frac{25}{425}\\ \rightarrow -0.022t=\ln(\frac{25}{425})\\ \rightarrow t\approx128.8$ minutes
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