Q1. For the circuit shown, assume that the switch has been open for a long time. Find the voltage across the capacitor (vc(t)). 50 mF Vc + - 30 20 6 A 5H 6 A
Q: t = 0 1kn 2kN i,(t) 34- + Yi(t) 5v(+ ve(t)=25µF 2kn vo(t) (1)°a: O A) 2.5 V O B) 4V O ) 5V O D) OV…
A: RESISTOR (R): A resistor is a passive electrical component with the primary function to limit the…
Q: P7.5.14 (Questions 4 and 5) The inductor current in the circuit shown below is given by 3+ 2e-3t A…
A:
Q: 27 Exercise 4.1 Find the time at which the voltage across the capacitor reaches 1 percent of its…
A:
Q: QI// Complete the following sentences: a) A series RC circuit has a resistance of 1M2 and a…
A: As per our company guidelines we are supposed to answer only first 3 subpart kindly repost other…
Q: Questions 39 Given: C, L The circuit below is under steady DC conditions. 6 N C F 8 H lll 1020° A L…
A:
Q: + C1 Vc 1F 2 ohm R3 V1 10V 1 ohm L1 1 ohm 1H
A:
Q: Q.34: The switch in the circuit shown in figure beside has been closed for a long time, and then…
A: We have to determine the value of Vo voltage across capacitor
Q: For the circuit shown Figure 3, Calculate the expression of the Ve(t) assume the initial value of…
A:
Q: Under steady-state DC conditions, find i, v and the energy stored in the capacitor and inductor in…
A: Draw the circuit at steady state DC conditions abd using KVL find the currents in all branches and…
Q: t = 0 6K2 10 и(-0) тА 4KS 5 μF 50 и() V
A:
Q: No energy is stored in the 100 mH inductor or the 0.4μF capacitor when theswitch in the circuit…
A:
Q: Consider the circuit in the figure below, assuming that the value of v t = 0,-1 A flows through the…
A: Bartleby has policy to solve only first 3 subparts of a question so please reupload the question.
Q: The switch in the circuit shown in figure beside has been in position "a" for a long time, and then…
A: In this question we need to find a voltage VC(t)
Q: For the given circuit, a) Find the Norton or Thevenin equivalent. b) Find va(t) for t > 0 when a 1…
A: Thevenin network and Norton network across a and b Vab if load connect to a and b 1mH inductor
Q: 20 kN A B t=0 + 30 V Rıko 200 kN UR(t) VC 10 μ | R1= 6kohms The circuit is in a steady state and the…
A: The solution can be achieved as follows.
Q: In the circuit in the figure below, the switch, which has been closed for a long time, opens at t=0.…
A:
Q: Q.2 The switch in Figure Q.2 has been in position 'A’ for a long time. At t = 0 s, the switch moves…
A:
Q: The circuit elements in the circuit L=50 mH, and C=0.2 μF. The initial inductor current is−45 mA and…
A: Let us examine the behavior of circuit elements at t=0
Q: The circuit shown below contains seven inductors, each having inductance L. The source voltage is…
A:
Q: For the circuit shown Figure 3, Calculate the expression of the Ve(t) assume the initial value of…
A: for the above-given circuit expression of Vc(t) is calculated as shown below
Q: In the circuit shown below, the switch, initially at position 1 for a long time, is changed to…
A: Inductor voltage, VL=LdiLdt Inductor current, IL=1L∫0wtVLdt
Q: P.3. R₂ M 200 V C At t = 0, the switch is closed. The initial energy stored in the inductor and the…
A:
Q: Homework 1 The switch in the circuit in below has been closed for a long time, and it is opened at t…
A:
Q: Q1. For the circuit shown, assume that the switch has been open for a long time. Find the voltage…
A:
Q: Q.34: The switch in the circuit shown in figure beside has been closed for a long time, and then…
A:
Q: (d) What is the time constant r of the response? Plot the response v,(1) and give the values of v.…
A: this is inverting amplifier
Q: When the switch is opened at t=0, obtain the capacitor voltage for t > O in the circuit * shown in…
A:
Q: T=0 5A(1) 100 2 10 mH
A:
Q: Problem 1 The switch in the following circuit has been closed for a long time. At t = Os the switch…
A:
Q: The current through the inductor is 5 amps. R Ci0.1μF LL1mH R13 kn 300 V 1 kHz O A. True O B. False
A:
Q: 6-For the circuit below, calculate the value of R that will make the energy stored in the capacitor…
A: Given: L: 4 mh , C: 160 micro farad Value of R ?
Q: L V R In the circuit in (Eigure 1), the voltage and current expressions are v = 320e 5t V, t 0t; i =…
A: Resistance = voltage across resistor/ current through resistor. Time constant = inductor/ resistor.…
Q: The initial voltages on capacitors C1 and C2 in the circuit shown in have been established by…
A: After closing the switch circuit can be shown as
Q: 20µF R + R3 Vc 0.5mH R2 10V 0.4mH 10µF 24V Assume the above circuit has been in this state for a…
A:
Q: A 0.8-H inductor is connected in series with a 7-ohm resistor. If the connection is energized from a…
A:
Q: Consider the circuit shown in the figure below, where L = 4.60 mH and R, = 420 0. The switch S can…
A: The given circuit is an RL circuit with a switch at 2 positions which is being supplied by a 24 volt…
Q: . For the circuit below, find expressions for the inductor current i, for both to t = 0 60 N 20 N…
A: We need to find out current through inductor for given circuit
Q: For R1= 2 Q, 1= 5 A, L1= 4 mH, C1= 160 µF (micro farrad) in the shown circuit, calculate the value…
A: Resistors, inductors, and capacitors form an integral part of any electrical circuit. A source,…
Q: Consider the circuit shown below. If V = 100 V, R = 1 k2, L = 65 H, what is the current in mA…
A: Applying KVL in loop gives diffrential equation in terms of inductor current i(t). Using intial…
Q: Please show your solution step by step. For the given questions take y =5 If the switch changes…
A:
Q: Consider the circuit shown in the figure. (Assume that C, = 3 µF, C, = 5 UF. C, = 6 UF, and C = 4…
A:
Q: 1-determine if the circuit working in the under damped overdamped or critically damped 2- Find i(t)…
A:
Q: In the circuit above, use R, = 62, R, = 32, R3 = 8Q, and i,(t) = 85u(t) – 46u(–t), in A. Assume that…
A: The given circuit diagram is shown below, Where, R1=6ΩR2=3ΩR3=8ΩL=23mHis(t) = 85u(t)-46u(-t) A
Q: 3 A 34 kN ER 30 mH The switch in the circuit shown in (Figure 1) has been in position 1 for a long…
A: This problem is of electric circuit.
Q: The shown circuit is connected for a long time. If C=24 µF and &=5.5 V, then find the charge on the…
A:
Q: 15 Find energy stored in the inductor in the circuit under steady state DC condition, * 2Ω + 2 F ЗА…
A:
Q: Determine vC, il., and the energy stored in the capacitor and inductor in the circuit under de…
A: Apply source transformation 12 = 4ILIL = 3 A Voltage across 1 ohm resistance will be V1 = 1×3V1= 3…
Q: 4. The circuit is at steady state before the switch transitions from closed to open at time t = 0.…
A:
Q: a 36: The switch in the circuit shown in figure beside has been in position "a" for a long time, and…
A: In d.c. analysis, under steady state condition a capacitor will behave as OPEN CIRCUIT. The voltage…
Q: For R1=7, 11=2 A, L1=4 mH, C1=170 uF (micro farrad) in the shown circuit, calculate the value of R…
A:
Trending now
This is a popular solution!
Step by step
Solved in 4 steps with 4 images
- You are an electrician working in an industrial plant. You discover that the problem with a certain machine is a defective capacitor. The capacitor is connected to a 240-volt AC circuit. The information on the capacitor reveals that it has a capacitance value of 10 mF and a voltage rating of 240 VAC. The only 10-mF AC capacitor in the storeroom is marked with a voltage rating of 350 WVDC. Can this capacitor be used to replace the defective capacitor? Explain your answer.An AC circuit contains a 24 resistor, a 15.9-mH inductor, and a 13.3F capacitor connected in parallel. The circuit is connected to a 240-V, 400-Hz power supply. Find the following values. XL=XC=IR=AIL=AIC=AP=WVARsL=VARsC=IT=AVA=PF=%=For the circuit at right: a. Immediately after the switch is closed, what is the current in the inductor? 12V b. A long time later, what is the current through the inductor? c. What is the energy stored in the inductor in part (b)? d. A long time later, the switch is opened. Immediately after, what is the voltage across the inductor?
- The figure below shows a simple RC circuit with a 3.30-μF capacitor, a 4.40-M resistor, a 9.00-V emf, and a switch. What are the following exactly 9.00 s after the switch is closed? (a) the charge on the capacitor 13.7204 UC (b) the current in the resistor 0.0110522 x Your response is off by a multiple of ten. HA (c) the rate at which the capacitor is storing energy μW (d) the rate at which the battery is delivering energy μWQ2: Find the voltage in all capacitor in figure below where the capacitance in uF C1 300 C4 400v 100 C2 C5 60 100When the switch is in position 1, the circuit will charge the capacitor. Find the Thevenin Equivalent Circuit for the charge phase and determine the time constant (Rh*C) for the charge phase.
- An alternating voltage is applied to a series circuit consisting of a resistor and iron-cored inductor anda capacitor. The current in the circuit is 0.5 A and the voltages measured are 30 V across the resistor,48 V across the inductor, 60 V across the resistor and inductor and 90 V across the capacitor.Find (a) the combined copper and iron losses in the inductor (b) the applied voltage Answer: [(a) 3.3 W (b) 56 V]An alternating voltage is applied to a series circuit consisting of a resistor and iron-cored inductor anda capacitor. The current in the circuit is 0.5 A and the voltages measured are 30 V across the resistor,48 V across the inductor, 60 V across the resistor and inductor and 90 V across the capacitor.Find (a) the combined copper and iron losses in the inductor (b) the applied voltage.Answer: [(a) 3.3 W (b) 56 V] Note: Please provide a clear solution!An alternating voltage is applied to a series circuit consisting of a resistor and iron-cored inductor and a capacitor. The current in the circuit is 0.5 A and the voltages measured are 30 V across the resistor, 48 V across the inductor, 60 V across the resistor and inductor and 90 V across the capacitor. Find (a) the combined copper and iron losses in the inductor (b) the applied voltage.
- The capacitor in the figure is initially uncharged and the switch is at position c and not connected to either side of the circuit. At t = 0, the switch is flipped to position a for 20 ms, then flipped to position b for 10 ms, flipped back to position a for 20 ms again, and finally flipped to position c. Find the graph of the current through and the voltage across the capacitor as functions of time. Please draw out the graphs and label the points thank you!CONSIDER THE CIRCUT BELOW.SUPPOSE V1=10V AND V2=1V BEFORE THE SWITCH IS CLOSED,WHAT IS THE COOMN VOLTAGE ACROSS THE CAPACITOR AFTER THE SWITCH CLOSED.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