Air 7. The bubbler system shown to the right is used to measure the Supply level of molten glass in a vat. 17 a. Write the STE for this system relating the output from the transmitter to the height of the process fluid relative to the Max. Level bottom of the tank. b. Determine the input range and span to the transmitter in 48 terms of the height of process fluid in the tank (with So -25 reference to the bottom of the tank). Min Level c. Calculate APiav and APURy in inH20. 12 + + 12 Bottom of Tank
Air 7. The bubbler system shown to the right is used to measure the Supply level of molten glass in a vat. 17 a. Write the STE for this system relating the output from the transmitter to the height of the process fluid relative to the Max. Level bottom of the tank. b. Determine the input range and span to the transmitter in 48 terms of the height of process fluid in the tank (with So -25 reference to the bottom of the tank). Min Level c. Calculate APiav and APURy in inH20. 12 + + 12 Bottom of Tank
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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Transcribed Image Text:Air
7. The bubbler system shown to the right is used to measure the
Supply
level of molten glass in a vat.
17
a. Write the STE for this system relating the output from the
transmitter to the height of the process fluid relative to the
Max. Level
bottom of the tank.
b. Determine the input range and span to the transmitter in
48
terms of the height of process fluid in the tank (with
SG -2.5
reference to the bottom of the tank).
Min. Level
c. Calculate APLRV and APury in inH;0.
12 +
* 12
Bottom of Tank
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