The graph. Shown in the adjacent diagram, represents the variation of temperature (T) of two bodies, x and y having same surface area, with time

Q: The graph. Shown in the adjacent diagram, represents the variation of temperature $(T)$ of two bodies, $x$ and $y$ having same surface area, with time $(t)$ due to the emission of radiation. Find the correct relation between the emissivity

c (c) Rate of cooling $\left( { - \frac{{dT}}{{dt}}} \right)\; \propto $ emissivity $(e)$ From graph, ${\left( { - \frac{{dT}}{{dt}}} \right)_x} > {\left( { - \frac{{dT}}{{dt}}} \right)_y}$ ==> ${e_x} > {e_y}$ Further emissivity $(e)$ $\propto$ Absorptive power $(a)$ ==> ${a_x} > {a_y}$ ( good absorbers are good emitters).

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The graph. Shown in the adjacent diagram, represents the variation of temperature $(T)$ of two bodies, $x$ and $y$ having same surface area, with time $(t)$ due to the emission of radiation. Find the correct relation between the emissivity

A${e_x} > {e_y}$ and ${a_x} < {a_y}$
B${e_x} > {e_y}$ and ${a_x} < {a_y}$
C${e_x} < {e_y}$ and ${a_x} > {a_y}$
D${e_x} > {e_y}$ and ${a_x} > {a_y}$

IIT 2003, Medium

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

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