Coulomb’s Law and its applications

Prepared by:Sweetu Ratnani (130010111048)

Guided by:Shailesh Khant (EC. Dept)

Coulomb’s Law

a) form

F kq1q2 /r2

b) Units

Two possibilities:- define k and derive q (esu)- define q and derive k (SI) √

9 109N k(1C)2 /(1m)2

k 9 109N

• For practical reasons, the coulomb is defined using current and magnetism giving

k = 8.988 x 109 Nm2/C2

• Permittivity of free space2212

0 Nm/C1084.841 k

Then

F 1

40

q1q2

r2

c) Fundamental unit of chargee = 1.602 x 10-19 C

d) Superposition of electric forces

Net force is the vector sum of forces from each charge

q1

q2

q3

q

F3

F2

F1

Net force on q: F = F1 + F2 + F3

F

Electric Field

- abstraction- separates cause and effect in Coulomb’s law

a) Definition

r E

r F q0

Units: N/C

b) Field due to a point charge

F

Q

q0

r

Coulomb’s law:

F kQq0

r2

Electric Field:

E F /q0

kQr2

r E //

r F direction is radial

c) Superposition of electric fields

Net field is the vector sum of fields from each charge

P

E3

E2

E1

Net field at P: E = E1 + E2 + E3

E

q1

q2

q3

Electric Field Lines (lines of force)

a) Direction of force on positive charge

radial for point chargesout for positive (begin)in for negative (end)

b) Number of lines proportional to charge

Q2Q

d) Line density proportional to field strength

Line density at radius r:

Number of linesarea of sphere

N

4r2

1r2

Lines of force model <==> inverse-square law

Applications of lines-of-force model

a) dipole

b) two positive charges

c) Unequal charges

d) Infinite plane of charge

++

+

++

+

++

+

++

+

Field is uniform and constant to ∞, in both directions

Electric field is proportional to the line density, and therefore to the charge density, =q/A

02

EBy comparison with the field from a point charge, we find:

E

q, A

e) Parallel plate capacitor (assume separation small compared to the size)

++

+

+

++

--

-

-

--

E+

E-

E=2E+

E+

E-

ER=0

E+

E-

EL=0

• Strong uniform field between:

E /0

• Field zero outside

f) Spherically symmetric charge distribution

+ +

+

+

++

+

+

• Symmetry ==> radial• number of lines prop. to charge

Outside the sphere:

r E

kqr2 ˆ r

as though all charge concentrated at the centre (like gravity)