| 1. | This can be explained with Newton's law of cooling:
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| 2. | See : Law of cooling ( which also applies to heating ).
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| 3. | :: : Another relevant article is Newton's law of cooling.
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| 4. | The rate of transfer is well described by Newton's law of cooling:
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| 5. | :: A much much simpler equation is Newton's law of cooling.
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| 6. | The mathematical solution to the lumped system approximation gives Newton's law of cooling.
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| 7. | Newton� s Law of Cooling are combined with the flux term derived above and the boundary layer thickness.
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| 8. | Systems for which cooling satisfies the above exponential equation are said to satisfy Newton's law of cooling.
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| 9. | This characteristic time function for temperature-difference behavior, is also associated with Newton's law of cooling.
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| 10. | Sketch of a heat sink in a duct used to calculate the governing equations from conservation of energy and Newton� s law of cooling.
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