The vertical rear window of an automobile is of thickness I.= 8 mm and height = 0.5 m and contains fine-meshed heating wires that can induce nearly uniform volumetric heating, (W/m³). Consider steady-state conditions for which the interior surface of the window is exposed to quiescent air at 10°C, while the exterior surface is exposed to air at-10°C moving in parallel flow over the surface with a velocity of 10.0 m/s. Determine the volumetric heating rate in kW/m³, needed to maintain the interior window surface at 7, 15°C. Evaluate the properties of the outside air at 0°C 4= 118 eTextbook and Media kW/m²
The vertical rear window of an automobile is of thickness I.= 8 mm and height = 0.5 m and contains fine-meshed heating wires that can induce nearly uniform volumetric heating, (W/m³). Consider steady-state conditions for which the interior surface of the window is exposed to quiescent air at 10°C, while the exterior surface is exposed to air at-10°C moving in parallel flow over the surface with a velocity of 10.0 m/s. Determine the volumetric heating rate in kW/m³, needed to maintain the interior window surface at 7, 15°C. Evaluate the properties of the outside air at 0°C 4= 118 eTextbook and Media kW/m²
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Answer IS NOT 118 OR 215/216. Will give thumbs up for right answer. again ANSWER IS NOT 118 OR 215/216
Transcribed Image Text:The vertical rear window of an automobile is of thickness I. 8 mm and height = 0.5 m and contains fine-meshed heating wires
that can induce nearly uniform volumetric heating, (W/m³). Consider steady-state conditions for which the interior surface of the
window is exposed to quiescent air at 10°C, while the exterior surface is exposed to air at-10°C moving in parallel flow over the
surface with a velocity of 10.0 m/s. Determine the volumetric heating rate in kW/m³, needed to maintain the interior window surface
at 7, 15°C. Evaluate the properties of the outside air at 0°C
4=
118
eTextbook and Media
kW/m²
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