Find the charge q() flowing through a device if the current is (0. a. If ( = 2 A and q(0) = 1 C, then q(): b. If () (2t+1) mA and q(0) = 0, then q() (+ c. If () = 19 cos(10t+ T /6) u A and q(0) = 2 u C, then q(t) = d. If (0 = 2 e-3ot sin40t A and q(0) = 0, then q() = (-e-30 1)C. 10 mC. 2 t+ %3D %3D 1.9 sin (10t+ T/6) + 1.05 u C. sin(40t + v (40)) + |C. cos
Find the charge q() flowing through a device if the current is (0. a. If ( = 2 A and q(0) = 1 C, then q(): b. If () (2t+1) mA and q(0) = 0, then q() (+ c. If () = 19 cos(10t+ T /6) u A and q(0) = 2 u C, then q(t) = d. If (0 = 2 e-3ot sin40t A and q(0) = 0, then q() = (-e-30 1)C. 10 mC. 2 t+ %3D %3D 1.9 sin (10t+ T/6) + 1.05 u C. sin(40t + v (40)) + |C. cos
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:Find the charge q() flowing through a device if the current is ().
a. If () = 2 A and q(0) = 1 C, then q():
C.
10 mC.
c. If () = 19 cos(10t+ T /6) u A and q(0) = 2 µ C, then q(t) =
d. If ( = 2 e-30t sin40t A and q(0) = 0, then q() = (-e30
2 t+
%3D
b. If () (2t+1) mA and q(0) =0, then q(t) =
v (10t + T /6) +
u C.
1.9 sin
1.05
|sin(400 +
v (401)) +
1C.
cos
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