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Chapter 19
Electric Forces
and
Electric Fields
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19.2 Electric Charges There are two kinds of electric charges
Called positive and negative Negative charges are the type possessed by
electrons Positive charges are the type possessed by
protons Charges of the same sign repel one
another and charges with opposite signs attract one another
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Electric Charges
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More About Electric Charges The net charge in an isolated system is
always conserved Charge is not created in the process of
rubbing two objects together The electrification is due to a transfer of
electrons from one object to another
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Quantization of Electric Charges The electric charge, q, is said to be quantized
q is the standard symbol used for charge as a variable
Evidenced by Millikan’s experiment in 1909, Electric charge exists as discrete packets
q = N e N is an integer e is the fundamental unit of charge |e| = 1.6 x 10-19 C Electron: q = -e ; Proton: q = +e Quarks (u, c, t): q = 2e/3 ; Quarks (d, s, b): q = -e/3
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19.3 Conductors Electrical conductors are materials in which
some of the electrons move relatively freely Free electrons are not bound to the atoms and can
move relatively freely through the material Examples of good conductors include copper,
aluminum and silver When a good conductor is charged in a small
region, the charge readily distributes itself over the entire surface of the material
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Insulators Electrical insulators are materials in
which electric charges do not move freely Examples of good insulators include glass,
rubber and wood When a good insulator is charged in a
small region, the charge is unable to move to other regions of the material
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Semiconductors The electrical properties of semiconductors
are somewhere between those of insulators and conductors
Examples of semiconductor materials include silicon and germanium
The electrical properties of semiconductors can be changed over many orders of magnitude by adding controlled amounts of foreign atoms (impurities) to the materials
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Charging a Metallic Object by Induction
Charging by induction requires no contact with the object inducing the charge
Assume we start with a neutral metallic sphere The sphere has the same
number of positive and negative charges
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Charging by Induction, 2 A negatively charged rubber
rod is placed near the sphere
It does not touch the sphere The electrons in the neutral
sphere are redistributed The migration of electrons
leaves the side near the rod with an effective positive charge
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Charging by Induction, 3 The sphere is grounded
Grounded means the conductor is connected to an infinite reservoir for electrons, such as the Earth
Some electrons can leave the sphere through the ground wire
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Charging by Induction, 4 The ground wire is
removed There will now be more
positive charges in the sphere
The positive charge has been induced in the sphere
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Charging by Induction, 5 The rod is removed
The rod has lost none of its charge during this process
The electrons remaining on the sphere redistribute themselves
There is still a net positive charge on the sphere
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Charge Rearrangement in Insulators
A process similar to induction can take place in insulators
The charges within the molecules of the material are rearranged
The effect is called polarization
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19.4 Charles Coulomb 1736 – 1806 Major contributions in the
fields of electrostatics and magnetism
Also investigated Strengths of materials Structural mechanics Ergonomics
How people and animals can best do work
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Coulomb’s Law Charles Coulomb
measured the magnitudes of electric forces between two small charged spheres
He found the force depended on the charges and the distance between them
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Coulomb’s Law, 2 The term point charge refers to a particle of
zero size that carries an electric charge The electrical force between two stationary
point-charged particles is given by Coulomb’s Law
The force is inversely proportional to the square of the separation r between the particles and directed along the line joining them
The force is proportional to the product of the charges, q1 and q2, on the two particles
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Coulomb’s Law, Equation Mathematically,
The SI unit of charge is the Coulomb, C ke is called the Coulomb Constant
ke = 8.9875 x 109 N.m2/C2 = 1/(4) is the permittivity free space = 8.8542 x 10-12 C2 / N.m2
1 22e e
q qF k
r
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Coulomb's Law, Notes Remember the charges need to be in
Coulombs e is the smallest unit of charge
Except quarks e = 1.6 x 10-19 C So 1 C needs 6.24 x 1018 electrons or protons
Typical charges can be in the µC range Remember that force is a vector quantity
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Vector Nature of Electric Forces
In vector form,
is a unit vector directed from q1 to q2
The like charges produce a repulsive force between them
1 212 122
ˆe
q qk
rF r
12r̂
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Vector Nature of Electrical Forces, 2 Electrical forces obey Newton’s Third Law The force on q1 is equal in magnitude and
opposite in direction to the force on q2
With like signs for the charges, the product
q1q2 is positive and the force is repulsive With opposite signs for the charges, the
product q1q2 is negative and the force is attractive
12 21F F
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The Superposition Principle The resultant force on any one particle
equals the vector sum of the individual forces due to all the other individual particles Remember to add the forces as vectors
The resultant force on q1 is the vector sum of all the forces exerted on it by other charges: 1 21 31 41 F F F F
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19.5 Electric Field – Test Particle The electric field is defined in terms of a test
particle, qo
By convention, the test particle is always a positive electric charge
The test particle is used to detect the existence of the field
It is also used to evaluate the strength of the field The test charge is assumed to be small enough not to
disturb the charge distribution responsible for the field
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Electric Field – Definition The electric field is defined as the
electric force on the test charge per unit charge
The electric field vector, , at a point in space is defined as the electric force, , acting on a positive test charge, qo placed at that point divided by the test charge: /e oqE F
eFE
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Relationship Between F and E
This is valid for a point charge only If q is positive, and are in the same
direction If q is negative, and are in opposite
directions
e qF E
E
F
F
E
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Electric Field Notes The direction of is that of the force on
a positive test charge The SI units of are N/C We can also say that an electric field
exists at a point if a test charge at that point experiences an electric force
E
E
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Electric Field, Vector Form Remember Coulomb’s Law, between
the source and test charges, can be expressed as
Then, the electric field will be
2ˆo
e e
qqk
rF r
2ˆe
eo
qk
q r
FE r
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More About ElectricField Direction
a) q is positive, the force is directed away from q
b) The direction of the field is also away from the positive source charge
c) q is negative, the force is directed toward q
d) The field is also toward the negative source charge
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Superposition with Electric Fields At any point P, the total electric field due
to a group of source charges equals the vector sum of electric fields at that point due to all the particles
2ˆ E r
i
e ii i
qk
r
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Superposition Example Find the electric field
due to q1, Find the electric field
due to q2,
Remember, the fields add as vectors
The direction of the individual fields is the direction of the force on a positive test charge
1E
1 2 E E E 2E
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