**Transcribing Circuit Information for Educational Use**In the image, we have an electrical circuit designed to calculate the time constant. The circuit consists of the following components:1. **Voltage Source**: A 15 V battery is connected to the circuit.2. **Switch**: The circuit includes a switch that can open or close the electrical pathway.3. **Resistor (R)**: A resistor with a resistance value of 2 kΩ (kilo-ohms).4. **Capacitor (C)**: A capacitor with a capacitance value of 4 µF (microfarads).The task given is to compute the time constant of the circuit, expressed in milliseconds (ms). It is instructed not to enter units in the solution box, only the numerical value.**Time Constant Formula**: The time constant (τ) in an RC circuit is calculated using the formula: \[ \tau = R \times C \]Given values to be used in calculation: - R = 2 kΩ = 2000 Ω- C = 4 µF = 4 × 10^-6 FThe time constant τ can be calculated with these values, and the result will provide insights into how quickly the capacitor charges or discharges in response to the circuit being closed or opened.

The solution can be achieved as follows.

Answered: Compute the time constant of the…

Compute the time constant of the circuit below in units of ms (Do not enter units in the solution box, only the value) Switch

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

please answer both questions with most detail as possible. if you use a formulas and manipulate it, please specify from where you got it from. THANK YOU
QUESTION 1 If a multiratio CT having 150:5 CT ratio with 0.104 ohm secondary resistance and the excitation current 0.2 A, I -SA Za1 ohm. a) Find the primary side of the CT and show the details of your work. b) Find the CT error and show the details of your work.
only 10
A piece of silver wire has a resistance of 1 ohm. Determine the resistance of alead wire one-third the length and one-third the diameter if the resistivity of lead wire is 30 times that of silver. NOTE: Please explain where did you get the variables so I can understand them. Thank you
Question Completion Status: Moving to another question will save this response. Question 7 Extrinsic semiconductors are having more charge carriers than intrinsic semiconductor. True False A Moving to another question will save this response.
COMPLETE TİMİNG DİAGRAM..
Power is the time rate of O a. displacement O b. all of these O c. force O d. energy
In the circuit below, switch S is initially disconnected from points A and B. The switch is then connected to A. What is the current and voltage in the resistors and inductor: a) as soon as the switch is turned on b) long after the key is turned on. The switch is then suddenly disconnected from A and connected to B: c) What is the current in the resistors at that moment? d) What is the voltage in the inductor? e) After that moment, what is the total energy dissipated by the resistors?
Question 3 The number of carriers reaches a maximum at an energy close to the edges of the two bands (Conduction and Valence). Find the expression for the energy where the number of carriers reaches a maximum (in terms of conduction and valence band energies) keeping in consideration non-degeneracy..Full explain this question and text typing work only We should answer our question within 2 hours takes more time then we will reduce Rating Dont ignore this line Fast
2. A bank of nickel-cadmium cells is used as the emergency lighting supply for a hospital. There are 100 cells connected in series and each has an A-hr rating of 120 A-hr. The bank has to be replaced, and the manufacturer is no longer supplying nickel-cadmium cells. It is decided to replace the cells with lead-acid cells. How many lead-acid cells will be required if each has an A-hr rating of 60 A-hr, and how should they be connected?
The terminal potential difference will be greater than its emf when it is * In open circuit Being charged Being charged or discharged Being discharged
Cyclic Voltammetry and Charge-discharge The given figure is the Galvanostatic Charge-discharge curves of a supercapacitor made with MnO2 coated on a CNT electrode. Potential is measured with respect to time by applying different current densities. Based on the plot, answer the following questions 4. Is it possible to estimate maximum power of the device with this charge-discharge curve? If possible, explain how you would do it. (calculation is not necessary)