Question 04 4.1 Water discharged from a reservoir into the atmosphere through a pipe 39 m long. There is a sharp entrance to the pipe and diameter is 50 mm for 15 m from the entrance. The pipe then enlarges suddenly to 75 mm in diameter for the remainder of its length. Taking into account the loss of head at entry and at the enlargement, calculate the difference of level between the surface of the reservoir and the pipe exit which will maintain a flow of 2,8 dm³/sec. Take f as 0,0048 for the 50 mm pipe and 0,0058 for the 75 mm pipe.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Question 04
4.1
Water discharged from a reservoir into the atmosphere through a pipe 39 m long.
There is a sharp entrance to the pipe and diameter is 50 mm for 15 m from the
entrance. The pipe then enlarges suddenly to 75 mm in diameter for the remainder
of its length. Taking into account the loss of head at entry and at the enlargement,
calculate the difference of level between the surface of the reservoir and the pipe
exit which will maintain a flow of 2,8 dm³/sec. Take f as 0,0048 for the 50 mm pipe
and 0,0058 for the 75 mm pipe.
Question 05
Transcribed Image Text:Question 04 4.1 Water discharged from a reservoir into the atmosphere through a pipe 39 m long. There is a sharp entrance to the pipe and diameter is 50 mm for 15 m from the entrance. The pipe then enlarges suddenly to 75 mm in diameter for the remainder of its length. Taking into account the loss of head at entry and at the enlargement, calculate the difference of level between the surface of the reservoir and the pipe exit which will maintain a flow of 2,8 dm³/sec. Take f as 0,0048 for the 50 mm pipe and 0,0058 for the 75 mm pipe. Question 05
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