Bundle: College Physics, Loose-Leaf Version, 11th + WebAssign Printed Access Card for Serway/Vuille's College Physics, 11th Edition, Single-Term
Bundle: College Physics, Loose-Leaf Version, 11th + WebAssign Printed Access Card for Serway/Vuille's College Physics, 11th Edition, Single-Term
11th Edition
ISBN: 9781337604888
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Chapter 16, Problem 43P

Find the charge on each of the capacitors in Figure P16.43.

Chapter 16, Problem 43P, Find the charge on each of the capacitors in Figure P16.43. Figure P16.43

Figure P16.43

Expert Solution & Answer
Check Mark
To determine
The charge on each capacitor.

Answer to Problem 43P

The charge on 1.00μF capacitor is 16.0μC

The charge on 5.00μF capacitor is 80.0μC

The charge on 8.00μF capacitor is 64.0μC

The charge on 4.00μF capacitor is 32.0μC

Explanation of Solution

The capacitors 1.00μF and 5.00μF are connected in series combination. The equivalent capacitance is,

Cpt=C1.00μFC5.00μFC1.00μF+C5.00μF

The capacitors 8.00μF and 4.00μF are connected in series combination. The equivalent capacitance is,

Cpb=C8.00μFC4.00μFC8.00μF+C4.00μF

The capacitances Cpt and Cpb are in parallel combination. The total equivalent capacitance is,

Ceq=Cpt+Cpb

Therefore,

Ceq=(C1.00μFC5.00μFC1.00μF+C5.00μF)+(C8.00μFC4.00μFC8.00μF+C4.00μF)

Substitute 1.00μF for C1.00μF , 5.00μF for C5.00μF , 8.00μF for C8.00μF and 4.00μF for C4.00μF

Ceq=[(1.00μF)(5.00μF)(1.00μF)+(5.00μF)]+[(8.00μF)(4.00μF)(8.00μF)+(4.00μF)]=4.00μF

Formula to calculate the total charge is,

Qtotal=CeqV

Substitute 4.00μF for Ceq and 24.0 V for V.

Qtotal=(4.00μF)(24.0V)=96.0μC

Formula to calculate the charge on 1.00μF capacitor is,

Q1=C1.00μF(QtotalC1.00μF+C5.00μF)

Substitute 96.0μC for Qtotal , 1.00μF for C1.00μF and 5.00μF for C5.00μF

Q1=(1.00μF)(96.0μC(1.00μF)+(5.00μF))=16.0μC

Formula to calculate the charge on 5.00μF capacitor is,

Q2=C5.00μF(QtotalC1.00μF+C5.00μF)

Substitute 96.0μC for Qtotal , 1.00μF for C1.00μF and 5.00μF for C5.00μF

Q2=(5.00μF)(96.0μC(1.00μF)+(5.00μF))=80.0μC

Formula to calculate the charge on 8.00μF capacitor is,

Q3=C8.00μF(QtotalC8.00μF+C4.00μF)

Substitute 96.0μC for Qtotal , 8.00μF for C8.00μF and 4.00μF for C4.00μF

Q3=(8.00μF)(96.0μC(8.00μF)+(4.00μF))=64.0μC

Formula to calculate the charge on 4.00μF capacitor is,

Q4=C4.00μF(QtotalC8.00μF+C4.00μF)

Substitute 96.0μC for Qtotal , 8.00μF for C8.00μF and 4.00μF for C4.00μF

Q4=(4.00μF)(96.0μC(8.00μF)+(4.00μF))=32.0μC

Conclusion:

The charge on 1.00μF capacitor is 16.0μC

The charge on 5.00μF capacitor is 80.0μC

The charge on 8.00μF capacitor is 64.0μC

The charge on 4.00μF capacitor is 32.0μC

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Chapter 16 Solutions

Bundle: College Physics, Loose-Leaf Version, 11th + WebAssign Printed Access Card for Serway/Vuille's College Physics, 11th Edition, Single-Term

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V is applied...Ch. 16 - Three parallel-plate capacitors are constructed,...Ch. 16 - For the system of four capacitors shown in Figure...Ch. 16 - A parallel-plate capacitor with a plate separation...Ch. 16 - Two capacitors give an equivalent capacitance of...Ch. 16 - A parallel-plate capacitor is constructed using a...Ch. 16 - Two charges of 1.0 C and 2.0 C are 0.50 m apart at...Ch. 16 - Find the equivalent capacitance of the group of...Ch. 16 - A spherical capacitor consists of a spherical...Ch. 16 - The immediate cause of many deaths is ventricular...Ch. 16 - When a certain air-filled parallel-plate capacitor...Ch. 16 - Capacitors C1 = 6.0 F and C2 = 2.0 F are charged...Ch. 16 - Two positive charges each of charge q are fixed on...Ch. 16 - Metal sphere A of radius 12.0 cm carries 6.00 C of...Ch. 16 - An electron is fired at a speed v0 = 5.6 106 m/s...
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