Fundamentals of Capacitance: & Inductive and Capacitive Reactance

The book starts with a brief introduction to capacitance, defining it as the ability of a device to store electric charge and explaining that it is measured in Farads (F).

The first section of the book discusses the basic concepts and formulas related to capacitance. It explains that capacitance is the ratio of the charge stored in a device to the voltage applied to it, and it provides the formula for capacitance, which is C = Q / V, where C is the capacitance in Farads (F), Q is the charge in Coulombs (C), and V is the voltage in Volts (V).

The section also covers the concept of the permittivity of free space (εo), which is a measure of the ability of a material to store electric charge, and explains how it is used in the formula for capacitance.

The second section discusses the capacitance of various types of capacitors, including parallel plate capacitors, capacitors in series, and capacitors with a dielectric material. It provides formulas for calculating the capacitance of each type of capacitor and explains how the presence of a dielectric material can increase the capacitance.

The third section covers the energy stored in a capacitor and the time constant of a capacitor-resistor (RC) circuit. It explains that the energy stored in a capacitor is proportional to the square of the voltage across it and provides the formula for calculating the energy stored in a capacitor. It also defines the time constant and explains how it is related to the resistance and capacitance of a circuit.

The fourth section of the book discusses the types of capacitors used in electronic circuits, including ceramic capacitors, electrolytic capacitors, film capacitors, and tantalum capacitors. It provides a brief overview of each type of capacitor and its characteristics.

The final section covers capacitive and inductive reactance in AC circuits. It explains that capacitive reactance arises in circuits that contain capacitors and inductive reactance arises in circuits that contain inductors. It provides formulas for calculating the capacitive and inductive reactance and explains how they affect the flow of current in a circuit.

Overall, the book provides a detailed overview of the concept of capacitance and its application in electronic circuits. It covers various formulas and concepts related to capacitance, including the basic formula for capacitance, the capacitance of different types of capacitors, energy stored in a capacitor, time constant, and capacitive and inductive reactance in AC circuits.---

keywords

Capacitance
Capacitor
Electric charge
Voltage
Farad
Permittivity
Dielectric material
Parallel plate capacitor
Series capacitor
Capacitance formula
Energy stored in a capacitor
Time constant
RC circuit
Ceramic capacitor
Electrolytic capacitor
Film capacitor
Tantalum capacitor
Capacitive reactance
Inductive reactance
AC circuits