e: the electric fieldsrjcstaff.santarosa.edu/~lwillia2/42/42ch23.pdfalthough an electric dipole has...
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![Page 1: E: The Electric Fieldsrjcstaff.santarosa.edu/~lwillia2/42/42ch23.pdfAlthough an electric dipole has zero net charge, it does have a net electric field. Some molecules, such as the](https://reader034.vdocuments.us/reader034/viewer/2022050110/5f47ffb8ba67132790071bea/html5/thumbnails/1.jpg)
E: The Electric Field
Lines Shows how the Force acts on a Positive Test Charge.
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B: The Magnetic Field
Lines point from North (+) to South (-) or form closed loops
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It is important to review the
gravitational force and field because
it has the same mathematical form as
the electric force and field.
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Man of the Millennium
Sir Issac Newton
(1642 -1727)
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Universal Law of Gravity
211
26.67 10
NmG x
kg
1 212 122
ˆm m
Gr
F r
(Minus because of the
direction of the unit vector.
Attractive Central Forces are
negative!)
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Gravity: Inverse Square Law
2
GmMF
d
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Inside the Earth the Gravitational Force is Linear.
Acceleration decreases as you fall to the center (where your
speed is the greatest) and then the acceleration increases
but in the opposite direction, slowing you down to a stop at
the other end…but then you would fall back in again,
bouncing back and forth forever!
Gravitational Force INSIDE the Earth
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Superposition of Gravitational
Force Vectors
12 13F F F What is the net force on mass 2?
Problem Solving Strategy
1. Draw FBD
2. Calculate Force Magnitudes
3. Resolve into components
4. Add components
5. Express as ijk vector
6. Find magnitude and direction
of resultant force.
1 2
3
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Gravitational Force & Field
Gravity field is the force that +1kg would feel if it were placed at
this location. The gravitational Field of the Earth at the
surface of the Earth is simply, g:
2
29.81 / 9.81 /EGM
g N kg m sr
1 222
ˆ G G
Gm mF r F m g
r
2ˆg GM
m r
Fg r
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In general, g for any Planet:
The gravitational field describes the “effect”
that any object has on the empty space around
itself in terms of the force that would be
present if a second object were somewhere in
that space
g field
2ˆg GM
m r
Fg r
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Electric Field
Two flavors of charge (+/-)
More on this later…..
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What is Charge?
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Electrons are Fundamental
and have a unit of charge that can
not be divided.
In bound systems, the electron is a standing wave of Probability…
q = -1.6 x10-19 Coulombs (C)
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Quarks are Fundamental and can
not be divided. Quarks have
fractional charge.
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For a total charge of plus one
2/3 + 2/3 - 1/3
= +1 An up, up, down makes a proton
Quarks combine to make
particles with unit charge.
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How many protons in a Coulomb?
-19
18
1.00 x (1 proton) / (1.60 x 10 )
6.25 10 protons!
C C
x
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elementary charge • the charge on one proton is
q = +1.6 x10-19 Coulombs (C)
• the charge on the electron is -q
• like charges repel, opposites attract
• the force between charges decreases with distance, obeying an inverse square Law
• charge is conserved
• charge is not observed to be divided
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This looks like the Big Bang!
So if charge is conserved where is all
the antimatter?
Matter-Antimatter Anisotropy
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Conductivity • Conductors: loosely bound valence electrons;
charge flows freely Ex: metals, salt water
• Insulators: tightly bound electrons; charge hard to
move Ex: organic materials, wood, glass, water
• Electrons move, protons are bound in a lattice
• Positively charged ions flow in fluid (liquid or gas)
• Positive & Negative charges rearrange and become
Polarized in Insulators
• Most materials are Electrically NEUTRAL (lowest
potential energy – electron shells want to be filled!)
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Electric forces for charges that are not moving.
Though static charge DO move! But not continuously as with
current.
Static Cling: Adhesion
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Most materials are Electrically
NEUTRAL
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TOTAL charge is conserved for any process.
Net Zero Charge
Net Zero Charge
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TOTAL charge is conserved for any process.
Net Charge is still zero after rubbing
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Charging by Induction
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Next Lab: Charging by Induction
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Coulomb’s Law
Likes Repel (+):
Opposites Attract (-):
k = 9 x 109 N m2/C2
1 2
12 212
q qF k F
r
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Electric Force Vector
1 212 2
ˆq q
kr
F r
Like Charges: Repulsive: Positive
Opposite Charges: Attractive: Negative
r̂
r̂Minus because of the definition of the
direction of reference frame and the unit
vector. Sign Convention: Attractive Central
Forces are negative!
1 212 2
ˆq q
kr
F r
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Electric Interaction
1 2
12 212
0
1
4
q qF F
r
0 : Permittivity of free space
Permittivity is a physical quantity that describes how an
electric field affects and is affected by a dielectric
medium, and is determined by the ability of a material to
polarize in response to the field, and thereby reduce the
total electric field inside the material. Thus, permittivity
relates to a material's ability to transmit (or "permit") an
electric field.
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What is the Electric Force between
two electrons separated by 1 m?
1 2
12 212
9 2 2 19 2
6 2
16
(9.00 10 / ) ( 1.60 10 )
(10 )
2.30 10
q qF k F
r
x Nm C x x C
m
x N
k = 9 x 109 N m2/C2
qe = -1.6 x10-19 (C)
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How strong is the Coulomb Force relative to Gravity?
k = 9 x 109 N m2/C2
G = 6.67 x10-11 N m2/kg2
qe = 1.6 x10-19 C
mp = 1.67 x10-27 kg, me = 9.11 x10-31 kg
1 2
2
G
Gm mF
r
proton electron
1 2
12 2
q qF k
r
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How strong is the Coulomb Force relative to Gravity?
1 2
2
G
Gm mF
r
proton electron
8
47
8.20 10
3.61 10
C
G
F x N
F x N
39 / 2.27 10C GF F x
1 2
12 2
q qF k
r
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Electric Force
Two point charges are lying on the
y-axis. Ignore gravity. They are
equidistant from the point P, which
lies on the x-axis. An electron is
placed at P and released. What
direction will the electron move?
What is the net force acting on the
electron? Draw the force diagram
showing the net force.
1 24.00 , 4.00q C q C
k = 9 x 109 N m2/C2
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Electric Field Shows how the field acts on a POSTIVE test charge!
E = Force/unit Charge
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Electric Field • Definition:
qEF • Electric field is the force per unit coulomb: it is the force that
+1C would feel if it were placed at this location.
• E field is in N/C.
• E field is a VECTOR.
• E field shows how the force acts on a POSTIIVE test charge!
11 2
Electric Field E due to q :kq
Er
FE
q
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Electric Field Vector
2ˆ
p
qE k
r r
Positive Charge: Repulsive: Positive
Negative Charge: Attractive: Negative
The electric field at P due to q. To find the sign and directions ask,
“how would the charge act on a POSITIVE ‘test’ charge?
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Electric Field Lines: • Direction is for a POSITIVE
Test charge
• direction of E-field at any point is tangent to the field line
• magnitude of E-field at any point is proportional to line density
• number of lines leaving or entering a charged object is proportional to the charge on the object
• Electric Force is in the direction of the E field for positive charges and in the opposite direction for negative charges.
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Equal Distance – Equal Force
A
B C
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Fig 23-20, p.723
Number of Field Lines ~ Electric
Field Strength
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A conductor in an external
Electric Field will Polarize
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MIT Shockwave Visual EM
http://web.mit.edu/8.02t/www/802TEAL3D/v
isualizations/guidedtour/Tour.htm
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Superposition of Electric Field Vectors
1 2P P PE E E
What is the net field at P due to all charges?
Problem Solving Strategy
1. Draw FBD
2. Calculate Field Magnitudes
3. Resolve into components
4. Add components
5. Express as ijk vector
6. Find magnitude and direction
of resultant field.
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Two Positive Charges
Two positive point charges of equal
magnitude are lying on the y-axis.
Ignore gravity. They are equidistant
from the point P, which lies on the
x-axis. What is the net electric field
at P? Draw the field vectors
showing the net field.
1 24.00 , 4.00q C q C
Where is the E field zero?
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Rank the Field Strength
Fig 23-23a, p.725
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Electric Dipole: Bisector
Electric Dipole: Two point charges
of equal but opposite magnitude are
lying on the y-axis. Ignore gravity.
They are equidistant from the point
P, which lies on the x-axis. What is
the net electric field at P? Draw the
field vectors showing the net field.
Derive a general solution too. What
is the electric field for a point much
further away than the charge
separation distance?
1 24.00 , 4.00q C q C
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Dipole Electric Field Bisector
In practice, we almost always observe the electric field of a dipole
only for distance much greater than the charge separation and the
E ~1/r3 holds everywhere.
2 2 3/ 2
2 2
( )y
k aE
x a
E
Near: 3
2 2y
k aE
xFar:
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Electric Dipole: H20
Although an electric dipole has zero
net charge, it does have a net electric
field. Some molecules, such as the
water molecule, have permanent
electric dipoles. The polar nature of
water molecules allows them to bond
to each other in groups and is
associated with the high surface
tension of water. The dipole moment
of water provides a "handle" for
interaction with microwave electric
fields in a microwave oven.
More on electric dipoles in CH 26
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Book Solves the Dipole with this
orientation: SAME RESULT!
Fig 23-15, p.719
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Recall from Physics 40
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Continuous Charge Distribution
2ˆ
dqd k
r E E r
dq dx
dq dA
dq dV
linear charge density
surface charge density
volume charge density
Q
L
Q
A
Q
V
Note: For spheres, cylinders, infinite planes, rods, etc, the electric field is found
using Gauss’s Law which we’ll do next chapter!
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Finite Uniform Rod: Bisector A thin rod of length ℓ and uniform charge per unit length λ lies
along the x axis, as shown. Find the electric field at P, a distance
y from the rod along its perpendicular bisector, and the electric
field at P of the rod if it is of infinite length.
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Finite Uniform Rod: Bisector
2 2( / 2)y
kQE
y y l
If y>>l
2y
kQE
y
Far away from the rod, the field looks like that of a point charge.
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http://www.falstad.com/vector3de/
Far Away from the Finite Line: 2y
kQE
y
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Infinite Line of Charge
Bisecting the Rod
2 2
2lim lim 2
( / 2)x
L L
kQ k QE k
yL yy y L
Notice: The electric field of an infinitely long charged rod
decreases as 1/r!
This is a good approximation for a finite line of charge
points far from the ends
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NonUniform Charge Distribution
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3/ 2
2 2ring
kxQE
x a
2 22 1Disk
xE k
x R
Let’s Review these Examples!
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Infinite Charged Plane
2 2lim lim 2 1 2DiskR R
xE k k
x R
0 0
22
4 2E k
02E
Infinite Charged Plane has
a constant Uniform Field
EVERYWHERE!!!!
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Infinite Charged Plane
02E
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Rank in order,
from largest to
smallest, the
electric field
strengths Ea to
Ee at these five
points near an
infinite plane of
charge.
1. Ea = Eb = Ec = Ed = Ee
2. Ea > Ec > Eb > Ee > Ed
3. Eb = Ec = Ed = Ee > Ea
4. Ea > Eb = Ec > Ed = Ee
5. Ee > Ed > Ec > Eb > Ea
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Rank in order,
from largest to
smallest, the
electric field
strengths Ea to
Ee at these five
points near an
infinite plane of
charge.
1. Ea = Eb = Ec = Ed = Ee
2. Ea > Ec > Eb > Ee > Ed
3. Eb = Ec = Ed = Ee > Ea
4. Ea > Eb = Ec > Ed = Ee
5. Ee > Ed > Ec > Eb > Ea
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Parallel Plates: In the center we
assume they are infinite and that the
field is constant and Uniform!
0
E
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Uniform Infinite Parallel Plates
IMPORTANT!!!!
The electric field is uniform, therefore the force has equal magnitude at any distance from the plates. Therefore, the acceleration is constant between the plates.
Fig 23-25, p.726
0
E
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Parallel Plate Capacitor Two 6.0 cm diameter circular electrodes are spaced 5.0 mm apart.
The capacitor is charged by transferring 1011 electrons from the
right to the left electrode. An electron is released from rest at the
surface of the negative electrode. How long does it take the
electron to cross to the positive electrode? What speed does it
collide? Assume the space between the plates is a vacuum.
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Proton Gun
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Cathode Ray Tube
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Which electric
field is responsible
for the trajectory of
the proton?
(1) (2) (3) (4)
(5)
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Which electric
field is responsible
for the trajectory of
the proton?
(1)
(2)
(4) (5) (3
)
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An electron enters the lower left side of a parallel plate
capacitor and exits at the upper right side as shown. The
initial speed of the electron is vi . Assume that the electric
field is uniform everywhere between the plates. Find the
magnitude of the electric field.
6 7.00 10 /iv x m s
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The TOTAL FORCE
Electric & Magnetic Fields
The Electric Force acts parallel to the
Electric Field.
The Magnetic Force acts perpendicular
to the Magnetic Field and the velocity.
q q F E v B