25. If the RTD has measured resistance R(T) of 126 2 at mcasured temperature T and the RTD dissipation constant P, (in W/*C) is 30 mw/°c, the self-heating temperature error AT generated by RDT at measured temperature T'in the Wheatstone bridge circuit is_ (a) 6.94 °C (b) 5.34 °C (c) 4.64 °C
25. If the RTD has measured resistance R(T) of 126 2 at mcasured temperature T and the RTD dissipation constant P, (in W/*C) is 30 mw/°c, the self-heating temperature error AT generated by RDT at measured temperature T'in the Wheatstone bridge circuit is_ (a) 6.94 °C (b) 5.34 °C (c) 4.64 °C
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Transcribed Image Text:25. If the RTD has measured resistance R(T) of 126 2 at measured temperature Tand the RTD
dissipation constant P, (in W/"C) is 30 mW/'C, the self-heating temperature error AT
generated by RDT at measured temperature Tin the Wheatstone bridge circuit is
(a) 6.94 °C
(b) 5.34 °C
(c) 4.64 °C
Transcribed Image Text:A Wheatstone bridge circuit is shown in Figure below, where R1=R:=R=1202, R. represents a
resistance-temperature detector (RTD), and voltage source V, = 10 v.
Provide the answers to questions 23 – 30.
R,
R,
R,
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