The resistance of an electrical toaster has a temperature dependence given by Rleft( T right) = {R_0}left[ {1 + alpha left( {T

Q: The resistance of an electrical toaster has a temperature dependence given by $R\left( T \right) = {R_0}\left[ {1 + \alpha \left( {T - {T_0}} \right)} \right]$ in its range of operation. At ${T_0} = 300\,K,R = 100\,\Omega $ and at $T = 500\,K,\,R = 120\,\Omega $. The toaster is connected to a voltage source at $200\, V$ and its temperature is raised at a constant rate from $300$ to $500\, K$ in $30\, s$. The total work done in raising the temperature is

d $R(T)=R_{o}\left(1+\alpha\left(T-T_{o}\right)\right)$ Applying boundary conditions, $120=100(1+200 \alpha)$ $\alpha=10^{-3}\, K^{-1}$ It is given that temperature increases at a constant rate from $300\, \mathrm{K}$ to $500\, \mathrm{K}$ in $30 \,\mathrm{s}$. Hence, $T(t)=300+20 t / 3$ By Joule's Law, heat dissipated in a resistor is given by: $W=\int_{0}^{30} \frac{V^{2}}{R} d t$ $=\int_{0}^{30} \frac{V^{2}}{R_{0}\left(1+\alpha\left(T-T_{0}\right)\right)} d t$ $=\frac{V^{2}}{R_{o}} \int_{0}^{30} \frac{1}{(1+20 \alpha t / 3)} d t$ Solving, $W=400 \ln (6 / 5)$ Work done on resistor $=-W=400 \ln (5 / 6) \,J$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The resistance of an electrical toaster has a temperature dependence given by $R\left( T \right) = {R_0}\left[ {1 + \alpha \left( {T - {T_0}} \right)} \right]$ in its range of operation. At ${T_0} = 300\,K,R = 100\,\Omega $ and at $T = 500\,K,\,R = 120\,\Omega $. The toaster is connected to a voltage source at $200\, V$ and its temperature is raised at a constant rate from $300$ to $500\, K$ in $30\, s$. The total work done in raising the temperature is

A$400\,\ln \,\frac{1.5}{1.3}\,J$
B$200\,\ln \,\frac{2}{3}\,J$
C$300\,J$
D$400\,\ln \,\frac{5}{6}\,J$

JEE MAIN 2016, Diffcult

STD 11 Science
NEET
STD 12 - 3. current electricity
Physics

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