The circuit below is used to heat water kept in a bucket. Assuming heat loss only by Newton's law of cooling, the variation in the temperature of the water in the bucket as a function of time is depicted by
KVPY 2019, Advanced
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$(c)$ In given condition,
Heat gained by water heater - Heat lost governed by Newton's law of cooling = Net heat gained by water
$\Rightarrow i^{2} R_{1}-K\left(T-T_{0}\right)=m S\left(\frac{\Delta T}{\Delta t}\right)$
Here, $T=$ temperature and $t=$ time.
$\Rightarrow \frac{d T}{d t} =\frac{i^{2} R_{1}}{m S}-\frac{K}{m S}\left(T-T_{0}\right)$
$=\frac{i^{2} R_{1}}{m S}+\frac{K T_{0}}{m S}-\frac{K}{m S} T$
Above equation can be written as,
$\frac{d T}{d t}=A+B T$
$\text { or } \frac{d T}{A+B T}=d t$
Integrating, we get
$\Rightarrow \frac{1}{B} \cdot \log _{e}(A+B T)=t$
$\Rightarrow A+B T=e^{t B}$
$\Rightarrow T=\frac{1}{B}\left(e^{t B}-A\right)$
Hence, temperature $T$ depends on time $t$ exponentially.
$\therefore$ Best suitable graph is
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