In a certain industrial process, oil of density p flows through the inclined pipe in the figure manometer with fluid density Pm- measures the pressure difference between points 1 and 2 as shown. The flow is steady, so that fluids in the U-tube are stationary. Find an analytic expression for p1-p2 in terms of system parameters. Discuss the conditions for there to be no flow in the pipe, for flow to move up from 1 to 2 and for the flow to go down from 2 to 1. O a. h-0 for all cases O b. h-0, h>0, and h-0 respectively O c. h<0, h>0, and h/0 respectively O d.h-Q, h>0, and h<0 respectively O e. h/0, h>0, and h<0 respectively

In a certain industrial process, oil of density p flows through the inclined pipe in the figure manometer with fluid density Pm- measures the pressure difference between points 1 and 2 as shown. The flow is steady, so that fluids in the U-tube are stationary. Find an analytic expression for p1-p2 in terms of system parameters. Discuss the conditions for there to be no flow in the pipe, for flow to move up from 1 to 2 and for the flow to go down from 2 to 1. O a. h-0 for all cases O b. h-0, h>0, and h-0 respectively O c. h<0, h>0, and h/0 respectively O d.h-Q, h>0, and h<0 respectively O e. h/0, h>0, and h<0 respectively

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Description: don't use Al bot or chat GPT otherwise downvote.correct answer will get instant upvote 0hS(2)pPm In a certain industrial process, oil of density p flows through the inclined pipe in the figure (refer to figure document). A U-tubemanometer with fluid

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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don't use Al bot or chat GPT otherwise downvote.correct answer will get instant upvote

In a certain industrial process, oil of density p flows through the inclined pipe in the figure (refer to figure document). A U-tube
manometer with fluid density Pm, measures the pressure difference between points 1 and 2 as shown. The flow is steady, so that fluids
in the U-tube are stationary. Find an analytic expression for p1-p2 in terms of system parameters. Discuss the conditions for there to
be no flow in the pipe, for flow to move up from 1 to 2 and for the flow to go down from 2 to 1.
O a. h-0 for all cases
O b. h-0, h>0, and h>0 respectively
O c. h<0, h>0, and h#0 respectively
O d.h-0, h>0, and h<0 respectively
O e. h/0, h>0, and h<0 respectively

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Step 1: Given Data:

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Step 2: To determine the expression for pressure difference in terms of system parameters:

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Step 3: To determine the condition for h necessary for flow in the pipe from section 1 and section 2:

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Step 4: To determine the condition for h necessary for flow in the pipe from section 2 and section 1::

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ISBN:

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Oxford University Press