Q2: A drop of liguid foluen is kept al uniform temperkure t299 K and is suspended in air bya fine wire. The initid radiusatr= 2mm. The vapor pressure of foluene 299K is f=384 Kfeand the density of liguid toluene is 366 ky Im3.Derive equation for the time tp for the drop b evupureteCompletely in a large volume of still airCalculate the tine in seconds for Complete evaporahion.

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Q2: A drop of liguid foluen is kept al uniform tempenkure t 299 K and is suspended in air by a fine wire. The initiel radius r= 2mm. The vapor pressure of foluene at 299K is =384 K and the dessily of liguid toluene is 866 ky Im 3. Derive equation for the time tp for the drop o evupurete Completely in a large volume of still air Calculate the tine in seconds for Complete evaporahion.

Q2: A drop of liguid foluen is kept al uniform tempenkure t 299 K and is suspended in air by a fine wire. The initiel radius r= 2mm. The vapor pressure of foluene at 299K is =384 K and the dessily of liguid toluene is 866 ky Im 3. Derive equation for the time tp for the drop o evupurete Completely in a large volume of still air Calculate the tine in seconds for Complete evaporahion.

Materials Science And Engineering Properties

1st Edition

ISBN:9781111988609

Author:Charles Gilmore

Publisher:Charles Gilmore

Chapter3: The Structure Of Real Materials

Section: Chapter Questions

Problem 3.12P

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