1. Oil with p=876 kg/m3 and p=0.24 kg/m's is released into the atmosphere I with a pressure of 88 kPa through a pipe with a diameter of 1.5 cm. The pressure 15 m before the exit is 135 kPa. (a) Find the oil flow rate for the horizontal tube and (b) find the radial position within the tube where the velocity is equal to the average velocity. (c) Find the oil flow rate for the case of tilting 8° above the horizontal. (Grasp the element in the tube as an inspection volume and apply momentum preservation to induce the relationship between speed and pressure.) Oil 135 kPa 15m- 15 cm

1. Oil with p=876 kg/m3 and p=0.24 kg/m's is released into the atmosphere I with a pressure of 88 kPa through a pipe with a diameter of 1.5 cm. The pressure 15 m before the exit is 135 kPa. (a) Find the oil flow rate for the horizontal tube and (b) find the radial position within the tube where the velocity is equal to the average velocity. (c) Find the oil flow rate for the case of tilting 8° above the horizontal. (Grasp the element in the tube as an inspection volume and apply momentum preservation to induce the relationship between speed and pressure.) Oil 135 kPa 15m- 15 cm

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Mechanisms of heat transfer

Heat transfer is an essential discipline in thermal engineering that deals with the transfer, conversion, usability, and creation of heat or thermal energy. Transfer of heat occurs through various mechanisms like conduction, convection, radiation, and change of phases. All these mechanisms have distinct characteristics, but these mechanisms can simultaneously occur in an identical system.

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ASAP

1. Oil with p=876 kg/m3 and p=0.24 kg/m's is released into the atmosphere
| with a pressure of 88 kPa through a pipe with a diameter of 1.5 cm.
The pressure 15 m before the exit is 135 kPa. (a) Find the oil flow rate
for the horizontal tube and (b) find the radial position within the tube where
the velocity is equal to the average velocity. (c) Find the oil flow rate for the
case of tilting 8° above the horizontal. (Grasp the element in the tube as an
inspection volume and apply momentum preservation to induce the
relationship between speed and pressure.)
Oil
135 kPa
15m-
15 cm

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