**Exercise 22-14****Objective:** List two ways to:a. Increase the time constant of a capacitive circuit.b. Decrease the time constant of a capacitive circuit.---In the context of an educational website, this content can be a part of a section on electronics or electrical engineering, specifically focused on capacitive circuits. The time constant (τ) of a capacitive circuit is defined as the product of resistance (R) and capacitance (C), τ = R × C. To increase the time constant, you can:1. Increase the resistance (R).2. Increase the capacitance (C).To decrease the time constant, you can:1. Decrease the resistance (R).2. Decrease the capacitance (C).This can be further explained by diagrams showing a basic RC circuit, demonstrating changes in charging and discharging times with different resistor and capacitor values.

We know that time constant of a RC circuit is given by T=RC . So it can be increased by increasing…

Answered: 22-14 List two ways to a. increase the…

22-14 List two ways to a. increase the time constant of a capacitive circuit. b. decrease the time constant of a capacitive circuit.

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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Question

**Exercise 22-14**

**Objective:**

List two ways to:

a. Increase the time constant of a capacitive circuit.

b. Decrease the time constant of a capacitive circuit.

---

In the context of an educational website, this content can be a part of a section on electronics or electrical engineering, specifically focused on capacitive circuits. The time constant (τ) of a capacitive circuit is defined as the product of resistance (R) and capacitance (C), τ = R × C.

To increase the time constant, you can:

1. Increase the resistance (R).
2. Increase the capacitance (C).

To decrease the time constant, you can:

1. Decrease the resistance (R).
2. Decrease the capacitance (C).

This can be further explained by diagrams showing a basic RC circuit, demonstrating changes in charging and discharging times with different resistor and capacitor values.

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