The balloon has a mass of 25 g (empty) and it is filled with air having a temperature of 20 ∘C having the density of 1.202 kg/m3. If it is released, it begins to accelerate upward at 8 m/s2 Determine the initial mass flow of air from the stem. Assume the balloon is a sphere having a radius of 180 mm
The balloon has a mass of 25 g (empty) and it is filled with air having a temperature of 20 ∘C having the density of 1.202 kg/m3. If it is released, it begins to accelerate upward at 8 m/s2 Determine the initial mass flow of air from the stem. Assume the balloon is a sphere having a radius of 180 mm
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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The balloon has a mass of 25 g (empty) and it is filled with air having a temperature of 20 ∘C having the density of 1.202 kg/m3. If it is released, it begins to accelerate upward at 8 m/s2
Determine the initial mass flow of air from the stem. Assume the balloon is a sphere having a radius of 180 mm .
Transcribed Image Text:The balloon has a mass of 25 g (empty) and it is filled
with air having a temperature of 20 °C having the density
of 1.202 kg/m³. If it is released, it begins to accelerate
upward at 8 m/s². (Figure 1)
Figure
-5 mm
8 m/s²
1 of 1
Part A
Determine the initial mass flow of air from the stem. Assume the balloon is a
sphere having a radius of 180 mm.
Express your answer using three significant figures.
15 ΑΣΦ
m= 0.005036093
vec
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