in Figure Q.1 is given by di L=+Ri+-= dt (i) Viti Ri+ = √ [idt = v(t) R i(t) voltage source www.restor vos inductor capacitor vor L Figure Q.1 Show that the voltage equation can be written as d²i dt² +7+12i = 130 sin(2t) — 9e-³t if L = 2, dt R = 14, C = — and v(t) = −130 cos(2t) + 6e-³t 24
in Figure Q.1 is given by di L=+Ri+-= dt (i) Viti Ri+ = √ [idt = v(t) R i(t) voltage source www.restor vos inductor capacitor vor L Figure Q.1 Show that the voltage equation can be written as d²i dt² +7+12i = 130 sin(2t) — 9e-³t if L = 2, dt R = 14, C = — and v(t) = −130 cos(2t) + 6e-³t 24
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter6: The Trigonometric Functions
Section6.5: Trigonometric Graphs
Problem 30E
Related questions
Question
![Q.1
(a) The voltage equation for an electrical network as shown
in Figure Q.1 is given by
(i)
di
L-+Ri+
dt
Viti
R
ww
L
fidt
i dt = v(t)
+7+12i =
+ 12i
dt
C
Figure Q.1
voltage source
ww.reststor
mo inductor
= capacitor
Show that the voltage equation can be written as
d²i
dt
= 130 sin(2t) — 9e-³t if L = 2,
R = 14, C = and v(t) = −130 cos(2t) + 6e-3t
24](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F747901cc-e48a-49c2-a1f6-3c722d38c6e3%2F4c879071-4c17-4e5b-aa0a-044fc2e043bb%2F3dvlxvp_processed.png&w=3840&q=75)
Transcribed Image Text:Q.1
(a) The voltage equation for an electrical network as shown
in Figure Q.1 is given by
(i)
di
L-+Ri+
dt
Viti
R
ww
L
fidt
i dt = v(t)
+7+12i =
+ 12i
dt
C
Figure Q.1
voltage source
ww.reststor
mo inductor
= capacitor
Show that the voltage equation can be written as
d²i
dt
= 130 sin(2t) — 9e-³t if L = 2,
R = 14, C = and v(t) = −130 cos(2t) + 6e-3t
24
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