1) Electric charge is quantized and comes in multiples of the fundamental charge of an electron.
2) There are two types of charge - positive and negative - which attract or repel depending on whether they are like or unlike.
3) Coulomb's law describes the electric force between two point charges, with the force being directly proportional to the product of the charges and inversely proportional to the square of the distance between them.
2. Fundamental Charge: The charge
on one electron.
e = 1.6 x 10 -19 C
Unit of charge is a Coulomb (C)
3. Two types of charge:
Positive Charge: A shortage of electrons.
Negative Charge: An excess of electrons.
Conservation of charge – The net charge of a
closed system remains constant.
4. +
n
+ +
+
+
+
n
n
n
n n
-
-
-
-
-
-
Neutral Atom
Number of electrons = Number of protons
Nucleus
Negative Atom
Number of electrons > Number of protons
-2e = -3.2 x 10-19C
-
-
Positive Atom
Number of electrons < Number of protons
+2e = +3.2 x 10-19C
7. Electric Charge
The Transfer of Charge
SILK
Glass Rod
-+
As the glass rod is rubbed against silk,
electrons are pulled off the glass onto the silk.
8. Electric Charge
The Transfer of Charge
SILK
Glass Rod
-
-+
+
Usually matter is charge neutral, because the number of
electrons and protons are equal. But here the silk has an
excess of electrons and the rod a deficit.
9. Electric Charge
The Transfer of Charge
SILK
Glass Rod
-
+
+
+
+
+
Glass and silk are insulators:
charges stuck on them stay put.
---
-
11. Charge is Quantized
q = multiple of an elementary charge e:
e = 1.6 x 10-19 Coulombs
Charge Mass Diameter
electron - e 1 0
proton +e 1836 ~10-15m
neutron 0 1839 ~10-15m
positron +e 1 0
(Protons and neutrons are made up of quarks, whose charge is
quantized in multiples of e/3. Quarks can’t be isolated.)
12. Coulomb’s Law – Gives the electric force
between two point charges.
2
21
r
qq
kF
k = Coulomb’s Constant = 9.0x109 Nm2/C2
q1 = charge on mass 1
q2 = charge on mass 2
r = the distance between the two charges
The electric force is much stronger than the
gravitational force.
Inverse Square
Law
13. Coulomb’s Law
q1 q2
r12r12
F12
Force on 2 due
to 1
F12
kq1q2
r12
2
ˆr12
k = (4pe0)-1 = 9.0 x 109
Nm2/C2
e0 = permitivity of free space
= 8.86 x 10-12 C2/Nm2
Coulomb’s law describes the interaction between bodies due to their cha
14. 2
21
r
qq
kF
If r is doubled then F is :
If q1 is doubled then F is :
If q1 and q2 are doubled and r is halved then F is :
¼ of F
2F
16F
Two charges are separated by a distance r and have a force
F on each other.
q1 q2
r
F F
Example 1
15. Example 2
Two 40 gram masses each with a charge of 3μC are
placed 50cm apart. Compare the gravitational force
between the two masses to the electric force between the
two masses. (Ignore the force of the earth on the two
masses)
3μC
40g
50cm
3μC
40g