A heat source at T = 10^3, K is connected to another heat reservoir at T = 10^2, K by a copper slab which is

Q: A heat source at $T = 10^3\, K$ is connected to another heat reservoir at $T = 10^2\, K$ by a copper slab which is $1\, m$ thick. Given that the thermal conductivity of copper is $0.1\, WK^{-1}\, m^{-1}$, the energy flux through it in the steady state is ........... $Wm^{-2}$

a $\frac{{\Delta Q}}{{\Delta t}} = \frac{{kA}}{\ell }\left( {{T_2} - {T_1}} \right)$ $\frac{1}{A}\left( {\frac{{\Delta Q}}{{\Delta t}}} \right) = \frac{k}{\ell }\left( {{T_2} - {T_1}} \right)$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A heat source at $T = 10^3\, K$ is connected to another heat reservoir at $T = 10^2\, K$ by a copper slab which is $1\, m$ thick. Given that the thermal conductivity of copper is $0.1\, WK^{-1}\, m^{-1}$, the energy flux through it in the steady state is ........... $Wm^{-2}$

A$90$
B$120$
C$65$
D$200$

JEE MAIN 2019, Diffcult

STD 11 Science
NEET
STD 11 - 10.2. transmission of heat
Physics

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