The figure shows two sections of an old pipe system that runs through a hill, with distances dA = dB = 26.0 m and D = 115 m. On each side of the hill, the pipe radius is 2.20 cm. However, the radius of the pipe inside the hill is no longer known.To determine it, hydraulic engineers first establish that water flows through the left and right sections at 2.80 m/s. Then they release a dye in the water at point A and find that it takes 76.0 s to reach point B. What is the average radius of the pipe within the hill? Number i d₁ D dB B Units
The figure shows two sections of an old pipe system that runs through a hill, with distances dA = dB = 26.0 m and D = 115 m. On each side of the hill, the pipe radius is 2.20 cm. However, the radius of the pipe inside the hill is no longer known.To determine it, hydraulic engineers first establish that water flows through the left and right sections at 2.80 m/s. Then they release a dye in the water at point A and find that it takes 76.0 s to reach point B. What is the average radius of the pipe within the hill? Number i d₁ D dB B Units
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Transcribed Image Text:The figure shows two sections of an old pipe system
that runs through a hill, with distances
da = dB = 26.0 m and D = 115 m. On each side of the
hill, the pipe radius is 2.20 cm. However, the radius of
the pipe inside the hill is no longer known.To
determine it, hydraulic engineers first establish that
water flows through the left and right sections at
2.80 m/s. Then they release a dye in the water at
point A and find that it takes 76.0 s to reach point B.
What is the average radius of the pipe within the hill?
Number
A
i
d₁
dB
B
Units
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