College Physics

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capacitance:

capacitor:

defibrillator:

dielectric strength:

dielectric:

electric potential:

electron volt:

equipotential line:

grounding:

mechanical energy:

Figure 19.25Automated external defibrillators are found in many public places. These portable units provide verbal instructions for use in the important first few minutes for a
person suffering a cardiac attack. (credit: Owain Davies, Wikimedia Commons)

Example 19.11 Capacitance in a Heart Defibrillator


A heart defibrillator delivers4.00×10^2 Jof energy by discharging a capacitor initially at1.00×10^4 V. What is its capacitance?


Strategy

We are givenEcapandV, and we are asked to find the capacitanceC. Of the three expressions in the equation forEcap, the most


convenient relationship is
(19.77)

Ecap=CV


2


2


.


Solution

Solving this expression forCand entering the given values yields


(19.78)


C =


2 Ecap


V^2


=


2(4.00× 102 J)


(1.00× 104 V)^2


= 8.00× 10 – 6F


= 8.00 μF.


Discussion

This is a fairly large, but manageable, capacitance at1.00×10^4 V.


Glossary


amount of charge stored per unit volt

a device that stores electric charge

a machine used to provide an electrical shock to a heart attack victim's heart in order to restore the heart's normal rhythmic pattern

the maximum electric field above which an insulating material begins to break down and conduct

an insulating material

potential energy per unit charge

the energy given to a fundamental charge accelerated through a potential difference of one volt

a line along which the electric potential is constant

fixing a conductor at zero volts by connecting it to the earth or ground

sum of the kinetic energy and potential energy of a system; this sum is a constant

688 CHAPTER 19 | ELECTRIC POTENTIAL AND ELECTRIC FIELD


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