The switch in the circuit shown in (Figure 1) has been open for a long time. The initial charge on the capacitor is zero. At t = 0, the switch is closed. Part AChoose the correct expression for i(t) fort > 0+.O i(t)=-3e mA, where t is in seconds-200tO i(t)= 3e mA, where t is in secondsO i(t)=-6e mA, where t is in secondsO i(t)= 6e-200 mA, where t is in secondsPart B-200tSubmit Request Answer-200tSubmitChoose the correct expression for v(t) for t≥ 0+.O v(t) = -150+60e-200 V, where t is in secondsOv(t) = 150-60e-200 V, where t is in secondsOv(t) = 150-60e-200t V, where t is in secondsOv(t) = 150+60e 200 V, where t is in secondsRequest Answer 7.5 mA ( 4+v(t){ 20 ΚΩ0.1 μεi(t)Σ 30 ΚΩ

In this question, we need to determine the current i(t) and voltage v(t) as shown in the circuit.we…

Answered: The switch in the circuit shown in…

The switch in the circuit shown in (Figure 1) has been open for a long time. The initial charge on the capacitor is zero. At t = 0, the switch is closed.

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...

See similar textbooks

Similar questions

In the circuit shown in the following figure(Figure 1) the capacitor has capacitance 19μF and is initially uncharged. The resistor Ro has resistance 11 2. An emf of 84.0 V is added in series with the capacitor and the resistor. The emf is placed between the capacitor and the switch, with the positive terminal of the emf adjacent to the capacitor. The small circuit is not connected in any way to the large one. The wire of the small circuit has a resistance of 1.1 /m and contains 25 loops. The large circuit is a rectangle 2.0 m by 4.0 m, while the small one has dimensions a = 13.0 cm and b = 18.0 cm. The distance c is 5.0 cm. (The figure is not drawn to scale.) Both circuits are held stationary. Assume that only the wire nearest the small circuit produces an appreciable magnetic field through it. Part A The switch is closed at t = 0. When the current in the large circuit is 4.70 A, what is the magnitude of the induced current in the small circuit? Express your answer with the appropriate…
In the figure the potential difference V of the battery is 10V. Each capacitor C has a value C = 10 μF. What is the charge on the capacitor C1.
In the diagram below, the switch S has been closed for a long time. A) What is the output voltage Vout? What is the charge on the capacitor? b) The switch is opened, so the output voltage increases. What is the time constant that describes the charging of the capacitor in terms of R and C? c) When Vout reaches 10 V, the switch closes and the capacitor begins to discharge. What is the time constant that describes the discharging in terms of R and C? Hint: Apply Kirchhoff's Rules to both loops and the sum of the currents at the junction above the capacitor in the diagram, and use I=dq/dt. If the switch opens when Vout reaches a lower value, say 5V, the capacitor will charge again, and thus one can cycle the voltage with a time constant determined by the circuit: this demonstrates the principle of operation of an electronic timer. 4R S 15 V Vout R
A 470- uF capacitor is connected in series with a 120-k2 resistor. How long will it take the capacitor to charge completely?
QUESTION 5 E-05, PC-01. Capacitor can store energy in form of? Current. Electrical charge. Power. QUESTION 6 E-06, PC-03. An Inductor's time constant is given by? LR. O L/R. L2 /R.
P:16) Given the current across the inductor @ t= 3s is 0.875 A. What is the voltage across the 3 ohm resistor? Assume that the switch is open.
In the circuit at right, a 100 mH inductor and a 5 N resistor are connected by a switch to a 6 V battery. hlllo a. After the switch is thrown to position a (connecting the battery), what time interval elapses before the current through the inductor is 200 mA? b. What is the current through the inductor 10 seconds later? c. Now the switch is quickly thrown from position a to position b, such that the inductor and resistor form a complete circuit separate from the battery. How much time elapses before the current falls to 200 mA? R L bọ
In the figure ɛ = inductor is ideal. If the switch is closed for a long time, what is the current through the inductor. Give your answer in A. 10.0 V, R, = 4.00 N, and R2 = 1.00 N. The %3D %3D
Picture shown three capacitors with capacitances C1=6.00μF,C2=3.00μF,C3=5.00μF . The capacitor network is connected to an applied potential Vab. After the charges on the capacitors have reached their final values, the charge Q2 on the second capacitor is 40.0 μC. Part A What is the charge Q1 on capacitor C1? Part B What is the charge on capacitor C3? Express your answer in microcoulombs to three significant figures. Part C What is the applied voltage, Vab? Express your answer in volts to three significant figures.
You charge a capacitor and then discharges it through a resistor. You notice that, after four time constants, the voltage across the capacitor has decreased to _____ of its value just prior to the initiation of the discharge. Group of answer choices 0.135 0.368 0.00674 0.0183 0.0498
When the switch is closed in above circuit, what is the voltage on the inductor, resistor R1 and R2 after 2.2us , assuming 0 V on the inductor to start?
The capacitors are iinitially uncharged, and the switch is initially open. a) When the switch is first closed, what is the current through R2?