1.23. Let the signal input to a galvanometer be x (1) = 0 t≤0 1>0 (1) = Kt in which K is a constant. (a) Find the expression for galvanometer response x,(1), assuming that the galvanometer is calibrated for static readings. (b) Show that the error , - , approaches a constant value. (c) What would you estimate to be the optimum damping ratio in this galvanom- eter operation?
1.23. Let the signal input to a galvanometer be x (1) = 0 t≤0 1>0 (1) = Kt in which K is a constant. (a) Find the expression for galvanometer response x,(1), assuming that the galvanometer is calibrated for static readings. (b) Show that the error , - , approaches a constant value. (c) What would you estimate to be the optimum damping ratio in this galvanom- eter operation?
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:1.23. Let the signal input to a galvanometer be
x (1) = 0
t≤0
t> 0
(1) = Kt
in which K is a constant.
(a) Find the expression for galvanometer response x,(1), assuming that the
galvanometer is calibrated for static readings.
(b) Show that the error , - , approaches a constant value.
(c) What would you estimate to be the optimum damping ratio in this galvanom-
eter operation?
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