A 10 mH inductor, a 1 μF capacitor, and a variable resistor areconnected in parallel in the circuit of (Figure 1). The resistor is adjustedso that the roots of the characteristic equation are-8000+j6000 rad/s. The initial voltage on the capacitor is 10 Vand the initial current in the inductor is 80 mA.Figure+IoiRR{+V1 of 1Find B₁ in the solution for v(t).Express your answer to three significant figures and include the appropriate units.B₁ = 10.0 VSubmit✓ CorrectPart DPrevious AnswersFind B₂ in the solution for v(t).Express your answer to three significant figures and include the appropriate units.B₂ = 640SubmitμAVPrevious Answers Request Answer

The given circuit iswhereL=10 mH.C=1 μF.The initial voltage on the capacitor is V0=10 V.The initial…

Answered: A 10 mH inductor, a 1 μF capacitor, and…

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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Part A Three capacitors, with capacitances C₁ =46 uF, C₂-3.0 μF, and C3=2.2 uF, are connected to a 17-V voltage source, as shown in the figure. What is the charge on capacitor C₂? C₁ a bo C₂ ΜΕ ΑΣΦ ? Submit Request Answer με
What is the equivalent capacitance of two capacitors 10uF and 4uF if they are connected in series?
6) What is the equivalent capacitance for the following?
could you help me with these questions thank you
Calculate the Vth and Rth of following circuit across two capacitor. 6V 80 50 2mF f= 50Hz 7mF
Find the equivalent capacitance of the following circuit, leaving the procedure to arrive at your answer
Solve for the equivalent capacitance if C1 = 22 micro Farad and C2 = 60 micro Farard. Note: All capacitances are in micro Farad. C1 40 a 50 20 12 30 10 bo 60
The circuit in the figure below contains a 9.00 V battery and four capacitors. The two capacitors on the left and right both have same capacitance of C₁ = 7.60 μF. The capacitors in the top two branches have capacitances of 6.00 μF and C₂ = 1.60 μF. C₁ 6.00 F C₂ +1 9.00 V CC₁ (a) What is the equivalent capacitance (in uF) of all the capacitors in the entire circuit? UF (b) What is the charge (in UC) stored by each capacitor? right 7.60 UF capacitor left 7.60 µF capacitor 1.60 μF capacitor 6.00 μF capacitor 1.60 μF capacitor 6.00 UF capacitor uc UC HC uc (c) What is the potential difference (in V) across each capacitor? (Enter the magnitudes.) right 7.60 μF capacitor V left 7.60 UF capacitor V V V 4

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