Asap. The volumetric flow rate of an idealgas in a pipe is 4.74lt/sec. If thetemperature of the gas is T=300°Kand the pressure is 1bar, determinethe mass flow rate of the gas in thepipe. The specific gas constant isR=287J/(kg. °K). Present your answerin grams per second (gram/s).

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Answered: The volumetric flow rate of an ideal…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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36 -S 42 2. Metal castings can sometimes develop a gap between the casting and mold as the molten metal hardens. The result can be a substantially altered cooling process. Set up a simple heat-transfer model that would let you look at the effect of the gap on the cooling process. Assume the casting and mold are square in shape, with an air gap of thickness das shown in the figure. The mold sits in some ambient room temperature. State clearly all assumptions and develop a corresponding model of the heat transfer problem. Assuming that the casting is aluminum, the mold is diatomaceous earth and the gap is filled with air, see if you can arrive at and summarize some insight into the effect of the gap and its size on the heat transfer process.
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The volumetric flow rate of an ideal gas in a pipe is 4.74lt/sec. If the temperature of the gas is T=300°K and the pressure is 1bar, determine the mass flow rate of the gas in the pipe. The specific gas constant is R=287J/(kg. °K). Present your answer in grams per second (gram/s).