sequential circuit
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A: NOTE: as per our company guidelines we are supposed to answer only first 3 sub-parts. Kindly re-post…
Q: IL 1H 20 Q 20 Q 48 V 10 Q Consider the circuit above. The switch has been closed for a very long…
A: given : inductor value is 1 Henry Supply is 48 volt. Calculate: iL ,io,VL for t>O
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A: Given data: L=20 mH
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A: The circuit for time t<0 is drawn as shown in the figure below.
Q: Now suppose the switch in the circuit in has been inposition b for a long time. At t=0, the switch…
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Q: CONSIDERING THE CIRCUIT OF FIGURE 2. THE INPUT FUNCTION OF V(T) IS THE VOLTAGE PULSE SHOWN IN FIGURE…
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Q: [Q3] The voltage across a 5 µF capacitor is known to be as follows: -2500 Ve = 500te V. for t 0. a)…
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Q: Consider the circuit shown in the Figure, if Is = 11 A, R1=5Q and R2 = 30, the energy stored in the…
A: Given circuit
Q: Q2: The swien n the circuit shown has been in position 1 for a long time. At t 0 it moves…
A: "Since you have posted a question with multiple sub-parts, we will solve first three sub-parts for…
Q: At time t = 0, the switch S2 is opened. At the moment when the energy in the inductor is considered…
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Q: A resistance of 20 Q and an inductance L are connected in series with a constant voltage of 100V.…
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Q: Suppose you have a capacitor with circular plates and area A = 100 cm2. The capacitance is 30 pF %3D…
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Q: For the sequential circuit shown in Figure, the current flowing through the inductor is zero. At t =…
A: A sequential circuit is a circuit that has a set of inputs and outputs. The combination of current…
Q: Project 4 Consider the following circuit, with R= 20. R Assume first that v, = 12V-u(-t) and X is a…
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Q: 2. The circuit shown in Figure-2 is at steady state before the switch closes at time t= 0. The input…
A: a) Given circuit shown
Q: 3. In the circuits shown the diagram below, R1 =30 N, R2 =40 Q, R3 =10 Q, and C =200 µF. R. R3 a. At…
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Q: t = 0 R vlt)F 3F Vs solve +1
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Q: Linear Differential Equation A simple electrical circuit shown in Figure 5.1 below is designed with…
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Q: Let be the first-order electric circuit shown in the figure below. It is known that the switch T…
A: The circuit is as shown below,
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A: Disclaimer: Since you have asked multipart questions, we will solve the first three subpart for…
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Q: Consider the circuit below. The capacitor has a capacitance of 21 mF and starts out uncharged. The…
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Q: FACULTY OF SCIENCES DEPARTMENT OF PHYSICS QUESTION NO. 2: MANDATORY/DOPTIONAL / BONUS In the figure,…
A: Given- C =0.4 uF ε= 20 V R1 = 10 k ohm R2= 15 k ohm
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Q: 4. When a capacitor, charged to a p.d. of 300 V, is connected to a voltmeter having a resistance of…
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Q: a. What is the governing equation for the current through the inductor, i(t)? What is the initial…
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Q: Given that the electric circuit shown below is at steady state, find the energy stored in each…
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Q: The circuit shown in the figure is in steady state, when the switch is closed at t= 0.Assuming that…
A: Given circuit is - Given that switch is closed at t = 0.
Q: Please see both images attatched.
A: Given parameters are,
Q: the circuit shown in the Figure, the switch is activated at t = 0 s from position 1 to position 2…
A: In this question we will find current through inductor...
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Q: The circuit shown is at steady state before the switch closes. The inductor currents are both zero…
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For the sequential circuit shown in Figure, the current flowing through the inductor is zero. At t = 0, the switch moved from position a to b, where it remained for 1 s. After the 1 s delay, the switch moved from position b to position c, where it remained indefinitely. Sketch (plot) the current flowing through the inductor versus time.
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- 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 inductor is "charged" to some value, then connected in series with a 1002 resistor and allowed to "discharge". A measurement of the potential difference across the resistor is shown in the figure below. Compute the time constant of the circuit, the inductance of the inductor, and the initial current through the inductor. 12 10 8 6 Potential across resistor (V) 2 0 0 0.0001 0.0002 0.0003 0.0004 0.0005 0.0006 0.0007 time (s)Describe the behavior of the voltage across the resistor with time as thecapacitor charges. Explain the reason for this behavior.
- The following figure represents an RC-Circuit with the switch. In Figure A, the capacitor is initially uncharged. In Figure B, the capacitor is initially fully charged. 1) Draw and label the current direction immediately after the switch is closed for each figure. 2) Consider Figure A. What is the voltage across the capacitor as t → 0? Explain. 3) Consider Figure B. Is the voltage across the resistor increasing, decreasing or staying the same as t → 0? Explain. A) B) R CA 20-ohm resistor and a capacitor are connected in series with a battery of 60 volts. At t = 0, there is no charge on the capacitor. Find the capacitance if the current at t = 5 seconds is 3/e^s amperes. Ans. 0.05 FaradsUsing the series circuit in Figure 3 consisting of a voltage source V, the resistor R and the fully uncharged capacitor C, how to find the value of the capacitance C considering as known data the time constant of the circuit T and the value of the resistor R? V ww R
- 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 bọcapacitor having capacitance of 10uF is connected with 1k ohm resistor in series. The switch of the DC supply of 10 Volts, closes at t = 0. Compute the following a. Draw a circuit diagram for t- and t+ b. Compute the time constant c. Plot the Voltage with respect to time, showing the behavior of capacitor charging(take at least 10 values of time in seconds to draw a graph).What do you think will happen to the current if the frequency is adjusted higher in the pure inductance experiment? and what will happen to the current if the frequency is adjusted lower in pure inductance experiment? explain why please
- For the circuit below, determine the current in each branch and the potential difference in the inductor immediately after switch S isclosed. After a long time the switch S is then opened. What are the currents in each branch and the potential difference in the inductor at that moment?A 140-mH inductor and a 5.50- resistor are connected with a switch to a 6.00-V battery as shown in the figure below. E ww 000 R L (a) After the switch is first thrown to a (connecting the battery), what time interval elapses before the current reaches 220 mA? (???) s (b) What is the current in the inductor 10.0 s after the switch is closed? (???) A (c) Now the switch is quickly thrown from a to b. What time interval elapses before the current in the inductor falls to 160 mA? (???) msAn uncharged capacitor and bulb are connected in series with a battery. Describe and explain what happens to thebulb when the switch is closed. What determines when the capacitor stops charging? What happens if the capacitoris turned around after the switch has been closed a long time? Include where charge is flowing the circuit. Alsodescribe the different roles of the capacitor and the battery.