Hot water cools from 60,^oC to 50,^oC in the first 10,minutes and to 42,^oC in the next 10,minutes. The temperature of the surroundings is ......

Q: Hot water cools from $60\,^oC$ to $50\,^oC$ in the first $10\,minutes$ and to $42\,^oC$ in the next $10\,minutes.$ The temperature of the surroundings is ...... $^oC$

b By $Newton's\,law$ of cooling $\frac{{{\theta _1} - {\theta _2}}}{t} = - K\left[ {\frac{{{\theta _1} + {\theta _2}}}{2} - {\theta _0}} \right]$ where ${\theta _0}$ is the temperature of surrounding. Now, hot water cools from ${60^ \circ }C\,to\,{50^ \circ }C$ in $10\,minutes,$ $\frac{{60 - 50}}{{10}} = - K\left[ {\frac{{60 + 50}}{2}{\theta _0}} \right]\,\,\,\,\,\,\,\,\,\,...\left( i \right)$ Agian, it cools from ${50^ \circ }C\,to\,{42^ \circ }C$ in next $10\,minutes.$ $\frac{{50 - 42}}{{10}} = - K\left[ {\frac{{50 + 42}}{2} - {\theta _0}} \right]\,\,\,\,\,\,\,\,\,\,...\left( {ii} \right)$ Dividing equations $(i)$ by $(ii)$ we get $\frac{1}{{0.8}} = \frac{{55 - {\theta _0}}}{{46 - {\theta _0}}}$ $\frac{{10}}{8} = \frac{{55 - {\theta _0}}}{{46 - {\theta _0}}}$ $460 - 10{\theta _0} = 440 - 8{\theta _0}$ $2{\theta _0} = 20$ ${\theta _0} = {10^ \circ }c$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

Hot water cools from $60\,^oC$ to $50\,^oC$ in the first $10\,minutes$ and to $42\,^oC$ in the next $10\,minutes.$ The temperature of the surroundings is ...... $^oC$

A $25$
B $10$
C $15$
D $20$

JEE MAIN 2014, Diffcult

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

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