Two tanks A and B. of constant cross-sectiona rea of 10 m² and 2.5 m², respectively, are onnected by a 5 cm pipe, 100 m long, with f= 0.03. If the initial difference of water levels is 3 m, how long will it take for 2.5 m³ of water to flow from A to B? Considering entry and exit losses, it can be grossly assumed that the flow velocity, in m/s, through the pipe is 1.75√h, where his in m, taking g = 10 m/sec², also, may take area of pipe as 2 x 10-3 m²,
Two tanks A and B. of constant cross-sectiona rea of 10 m² and 2.5 m², respectively, are onnected by a 5 cm pipe, 100 m long, with f= 0.03. If the initial difference of water levels is 3 m, how long will it take for 2.5 m³ of water to flow from A to B? Considering entry and exit losses, it can be grossly assumed that the flow velocity, in m/s, through the pipe is 1.75√h, where his in m, taking g = 10 m/sec², also, may take area of pipe as 2 x 10-3 m²,
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![58 Two tanks A and B, of constant cross-sectional
*
area of 10 m² and 2.5 m², respectively, are
onnected by a 5 cm pipe, 100 m long, with
= 0.03. If the initial difference of water levels
is 3 m, how long will it take for 2.5 m³ of water
to flow from A to B? Considering entry and exit
losses, it can be grossly assumed that the flow
velocity, in m/s, through the pipe is 1.75√h,
where his in m, taking g = 10 m/sec², also, may
take area of pipe as 2 x 10-3 m²,](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F085ec641-88e8-4e42-b3ff-812b934c690f%2F44b0ee91-d1c7-45f2-b5da-13b061f974ac%2F8aqguuk_processed.jpeg&w=3840&q=75)
Transcribed Image Text:58 Two tanks A and B, of constant cross-sectional
*
area of 10 m² and 2.5 m², respectively, are
onnected by a 5 cm pipe, 100 m long, with
= 0.03. If the initial difference of water levels
is 3 m, how long will it take for 2.5 m³ of water
to flow from A to B? Considering entry and exit
losses, it can be grossly assumed that the flow
velocity, in m/s, through the pipe is 1.75√h,
where his in m, taking g = 10 m/sec², also, may
take area of pipe as 2 x 10-3 m²,
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