Question

A capacitor that can store 100uc of charge with 10v across its plates has a capacitance value of

Answer 1

Answer:

10

Explanation:

use the formula Q=CV...

where c is the capacitance , v is the potencial difference and q is charge

re arrange formula...

c = q/v

= 100/10 = 10

Answer 2

Answer:

Concept:

A capacitor is an electrical energy storage device that operates in an electric field. It's a two-terminal passive electrical component. The term "capacitance" refers to the action of a capacitor. While there is some capacitance between any two conductive material in close proximity in a network, a capacitor is a component that is specifically designed to introduce capacitance to a circuit. Originally, the capacitor was known as a condensation or condensator. One major exception is condenser microphones, commonly known as capacitor microphones.

Given:

A capacitor with a capacitance of 100uc and a voltage of 10v between its plates has a capacitance of

Find:

find the capacitance value

Answer:

According the formula C=Q/V, this estimates the impedance of a capacitor depending on its charge, Q, and voltage, V.

Charge = capacitance

(in Farads) multiplied by voltage is the formula for calculating the amount of charge stored in a capacitor. The ratio of the high charge Q that may be stored in a capacitor to the supplied voltage V across its plates is known as the capacitance C of a capacitor. Capacitance, in other words, is the maximum amount of energy per volt that may be held on a device: C = Q V.

With an applied voltage V, the charge stored by a capacitor is given by:

Q = C × V

C = Capacitance of the capacitor

V  = Voltage applied across the capacitor

Q = Charge stored

Given Q = 100 μC

V = 10 V

100 μC = C × 10

C = 10 μF

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