A body cools from \(60\degree C\) to \(40\degree C\) in 6 minutes. If, temperature of surroundings is \(10\degree C\). Then, after the next 6 minutes, its temperature will be ______\(\degree C\).
Show Hint
For Newton’s Law of Cooling:
• Use average temperatures for consistent calculations.
• Ensure accurate time intervals and surrounding temperature values.
Correct Answer: 28
Solution and Explanation
-
Newton’s Law of Cooling: Average rate of cooling:
\[ \frac{T - T_s}{\Delta t} = k(T - T_s), \]
where \(T_s\) is the surrounding temperature. -
First Interval:
\[ \frac{60 - 40}{6} = k\left(\frac{60 + 40}{2} - 10\right), \]
\[ k = \frac{20}{6 \times 50}. \]
-
Second Interval:
\[ \frac{40 - T}{6} = k\left(\frac{40 + T}{2} - 10\right). \]
Solve:
\[ T = 28^\circ \text{C}. \]
Final Answer: 28°C
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