A thermal window, with an area of 6.0m ^ 2, is constructed of two layers of glass, each 4.0mm thick, separated from each other by a 5.0mm air gap. If the inner surface is at 20.0 ° C and the outer surface is at -5.0 ° C, what is the rate of energy transfer by conduction through the window? The thermal conductivity of glass is 0.8 W⁄ (m. ° C) and that of air is 0.023 W⁄ (m. ° C)

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A thermal window, with an area of 6.0m ^ 2, is constructed of two layers of glass, each 4.0mm thick, separated from each other by a 5.0mm air gap. If the inner surface is at 20.0 ° C and the outer surface is at -5.0 ° C, what is the rate of energy transfer by conduction through the window? The thermal conductivity of glass is 0.8 W⁄ (m. ° C) and that of air is 0.023 W⁄ (m. ° C)

1.-Una ventana térmica, con área de 6.0m", se construye de dos capas de vidrio, cada una
de 4.0 mm de grosor, separadas una de otra por un espacio de aire de 5.0mm. Si la
superficie interior está a 20.0°C y la exterior a -5.0°C. ¿cuál es la rapidez de transferencia
de energía por conducción a través de la ventana? La conductividad témica del vidrio es
de 0.8 W/m. °C y la del aire es de 0.023 W/m. °C
Transcribed Image Text:1.-Una ventana térmica, con área de 6.0m", se construye de dos capas de vidrio, cada una de 4.0 mm de grosor, separadas una de otra por un espacio de aire de 5.0mm. Si la superficie interior está a 20.0°C y la exterior a -5.0°C. ¿cuál es la rapidez de transferencia de energía por conducción a través de la ventana? La conductividad témica del vidrio es de 0.8 W/m. °C y la del aire es de 0.023 W/m. °C
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