A body of length 1m having cross sectional area 0.75;m^2 has heat flow through it at the rate of 6000; Joule/sec . Then find the

Q: A body of length 1m having cross sectional area $0.75\;m^2$ has heat flow through it at the rate of $ 6000\; Joule/sec$ . Then find the temperature difference if $K = 200\;J{m^{ - 1}}{K^{ - 1}}$ ...... $^oC$

b (b) $\frac{Q}{t} = \frac{{KA\Delta \theta }}{l}$ ==> $6000 = \frac{{200 \times 0.75 \times \Delta \theta }}{1}$ $\therefore$ $\Delta \theta = \frac{{6000 \times 1}}{{200 \times 0.75}} = 40^\circ C$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A body of length 1m having cross sectional area $0.75\;m^2$ has heat flow through it at the rate of $ 6000\; Joule/sec$ . Then find the temperature difference if $K = 200\;J{m^{ - 1}}{K^{ - 1}}$ ...... $^oC$

A$20$
B$40$
C$80$
D$100$

Medium

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

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