electrostatic formula. electric force f = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 n m 2 =...
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![Page 1: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/1.jpg)
Electrostatic Formula
![Page 2: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/2.jpg)
Electric Force
F = 1 q1q2 = k q1q2
4 eo r2 r2
k = 9.0x10 9 N m2 = 1 = -------1------------
C2 4 eo 4 8.85x10-12 C2
N m2
![Page 3: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/3.jpg)
Electric Force
F = 1 q1q2 = k q1q2
4 eo r2 r2
k = 9.0x10 9 N m2 = 1 = -------1------------
C2 4 eo 4 8.85x10-12 C2
N m2
![Page 4: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/4.jpg)
Electric Force
F = 1 q1q2 = k q1q2
4 eo r2 r2
k = 9.0x10 9 N m2 = 1 = -------1------------
C2 4 eo 4 8.85x10-12 C2
N m2
![Page 5: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/5.jpg)
Electric Force
F = 1 q1q2 = k q1q2
4 eo r2 r2
k = 9.0x10 9 N m2 = 1 = -------1------------
C2 4 eo 4 8.85x10-12 C2
N m2
![Page 6: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/6.jpg)
Electric Force
F = 1 q1q2 = k q1q2
4 eo r2 r2
k = 9.0x10 9 N m2 = 1 = -------1------------
C2 4 eo 4 8.85x10-12 C2
N m2Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 7: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/7.jpg)
Electric Force
F = 1 q1q2 = k q1q2
4 eo r2 r2
k = 9.0x10 9 N m2 = 1 = -------1------------
C2 4 eo 4 8.85x10-12 C2
N m2Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 8: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/8.jpg)
Electric Field associated with point charges
E = F q
F = kqq therefore E = Kqq therefore E =kq r2 r2q r2
Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 9: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/9.jpg)
Electric Field associated with point charges
E = F q
F = kqq therefore E = Kqq therefore E =kq r2 r2q r2
Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 10: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/10.jpg)
Electric Field associated with point charges
E = F q
F = kqq therefore E = Kqq therefore E =kq r2 r2q r2
Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 11: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/11.jpg)
Electric Field associated with point charges
E = F q
F = kqq therefore E = Kqq therefore E =kq r2 r2q r2
Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 12: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/12.jpg)
Electric Field associated with point charges
E = F q
F = kqq therefore E = Kqq therefore E =kq r2 r2q r2
Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 13: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/13.jpg)
Electric Field associated with point charges
E = F q
F = kqq therefore E = Kqq therefore E =kq r2 r2q r2
Vector sum – x components, y components, sum of x components, sum of y components, pythagorean theorem, and inv tan of (sum of y )/(sum of x )
![Page 14: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/14.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 15: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/15.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 16: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/16.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 17: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/17.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 18: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/18.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 19: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/19.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 20: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/20.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 21: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/21.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 22: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/22.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 23: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/23.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 24: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/24.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 25: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/25.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 26: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/26.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 27: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/27.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 28: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/28.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 29: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/29.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 30: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/30.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 31: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/31.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 32: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/32.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E q d
![Page 33: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/33.jpg)
Electric Field Associated with Parallel Plates
The electric field is uniform between plates
Work is required to move +q from the – to +W=Fd W=qEd W=qKqd W=Kqq W = Kq W =V=Joules= Electric Potential d2 d q d q Coulomb W=qEd W = Ed V = Ed V = E = Volts q d meter
![Page 34: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/34.jpg)
Capacitance
C = Q V
C = KAo
d K= dielectric constant A = area in m2
x10-12 C2
N m2
d = distance between plates in m
![Page 35: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/35.jpg)
Capacitance
C = Q V
C = KAo
d K= dielectric constant A = area in m2
x10-12 C2
N m2
d = distance between plates in m
![Page 36: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/36.jpg)
Capacitance
C = Q V
C = KAo
d K= dielectric constant A = area in m2
x10-12 C2
N m2
d = distance between plates in m
![Page 37: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/37.jpg)
Capacitance
C = Q V
C = KAo
d K= dielectric constant A = area in m2
x10-12 C2
N m2
d = distance between plates in m
![Page 38: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/38.jpg)
Capacitance
C = Q V
C = KAo
d K= dielectric constant A = area in m2
x10-12 C2
N m2
d = distance between plates in m
![Page 39: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/39.jpg)
Capacitance
C = Q V
C = KAo
d K= dielectric constant A = area in m2
x10-12 C2
N m2
d = distance between plates in m
![Page 40: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/40.jpg)
Capacitance
C = Q V
C = KAo
d K= dielectric constant A = area in m2
x10-12 C2
N m2
d = distance between plates in m
![Page 41: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/41.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 42: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/42.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 43: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/43.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 44: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/44.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 45: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/45.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 46: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/46.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 47: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/47.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 48: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/48.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 49: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/49.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 50: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/50.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 51: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/51.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 52: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/52.jpg)
Capacitance
W = QV = U ( Potential energy stored ) For a capacitor U = ½ QV since it is easier to add charge at first and
progressively gets more difficult C = Q CV = Q therefore U =1/2 QV= ½ CV2
V C = Q V = Q therefore U = ½ QV = ½ Q2
V C C
![Page 53: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/53.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 54: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/54.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 55: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/55.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 56: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/56.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 57: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/57.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 58: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/58.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 59: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/59.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 60: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/60.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 61: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/61.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 62: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/62.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 63: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/63.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 64: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/64.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 65: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/65.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 66: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/66.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 67: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/67.jpg)
Capacitance
Cparallel = C1+C2+C3
2F
4F
6F
12F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 12x10-6F (3V) = 36x10-6C or 3.6x10-5Q
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 12x10-6F(3V)2 =U=1.08x10-4 J
What is the charged stored on each of the capacitors?CV=Q= 2x10-6F (3V) = 6x10-6C
CV=Q= 4x10-6F (3V) = 12x10-6C or 1.2x10-5Q
CV=Q= 2x10-6F (3V) = 18x10-6C or 1.8x10-5Q
![Page 68: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/68.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11=1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 69: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/69.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11=1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 70: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/70.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11=1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 71: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/71.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11=1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 72: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/72.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11= 1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 73: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/73.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11= 1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 74: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/74.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11= 1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 75: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/75.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11= 1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 76: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/76.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11= 1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J
![Page 77: Electrostatic Formula. Electric Force F = 1 q 1 q 2 = k q 1 q 2 4 e o r 2 r 2 k = 9.0x10 9 N m 2 = 1 = -------1------------ C 2 4 e o 4 8.85x10](https://reader035.vdocuments.net/reader035/viewer/2022070402/56649f225503460f94c3a390/html5/thumbnails/77.jpg)
Capacitance
1 = 1 + 1 + 1 Cseries C1 C2 C3
2F 4F 6F
1/C = 1/2F 1/4F + 1/6F
1/C = 11/12F = 12F/11= 1.09 F
3 V
What is the total charge stored in the system? C = Q VCV = Q = 1.09x10-6F (3V) = 3.27x10-6C
What is the energy stored in the system?U=1/2 QV U = ½ CV2 U= ½ 3.27x10-6F(3V)2 =U=1.47x10-5 J