A stream of water with density p=1000 kg/m³ is discharged from a nozzle at the rate of 0.085 m³/s as shown in the figure given. Using Bernoulli's equation, the gage pressure P in the pipe just upstream from the nozzle is P = (v - v). Knowing the nozzle is held to the pipe by six flange bolts, determine the tension in each bolt, neglecting the initial tension caused by the tightening of the nuts.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A stream of water with density p= 1000 kg/m³ is discharged from a nozzle at the rate of 0.085 m³/s as shown in the figure given.
(v²v). Knowing the nozzle is
Using Bernoulli's equation, the gage pressure P in the pipe just upstream from the nozzle is P
held to the pipe by six flange bolts, determine the tension in each bolt, neglecting the initial tension caused by the tightening of the
nuts.
150 mm
The tension in each bolt is 2725.6€ N.
50 mm
=
Transcribed Image Text:A stream of water with density p= 1000 kg/m³ is discharged from a nozzle at the rate of 0.085 m³/s as shown in the figure given. (v²v). Knowing the nozzle is Using Bernoulli's equation, the gage pressure P in the pipe just upstream from the nozzle is P held to the pipe by six flange bolts, determine the tension in each bolt, neglecting the initial tension caused by the tightening of the nuts. 150 mm The tension in each bolt is 2725.6€ N. 50 mm =
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