Transcript Static
Electrostatics
The Musical genius of Tesla?
• Electricity come from the Greek word
Elektron Meaning Amber.
• Electrostatics is the study of electricity at
rest.
Electric Force and Charges
Protons
• Positive electric charges
• Repel positives, but attract negatives
Electrons
• Negative electric charges
• Repel negatives, but attract
positives
Neutrons
• Neutral electric charge
When a balloon is rubbed against
your hair and pulled away, your
hair clings to it because
_________.
A. Rubber is very sticky
B. The balloon is filled with helium
C. The hair and balloon are both positively
charged
D. The hair is positively charged and the balloon is
negatively charged
Rubbing your hair with a balloon
increases the static charge because
____________.
A. Protons are moving from your hair to the
balloon.
B. The balloon is getting charge from your
hair.
C. The rubber in the balloon is nonconducting so it allows the electricity to
gather
D. Hair and rubber are compatible
Electric Force and Charges
CHECK YOUR ANSWER
But what is Charge?
A Charge is an imbalance of protons and
electrons.
Its important to remember that atoms
lose or gain electrons not protons.
Electric Force and Charges
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A Positive Charge
-Has more Protons then electrons
Electric Force and Charges
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A Negative Charge
-Has more Electrons than Protons
Electric Force and Charges
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When thinking of electric force
remember The old dating saying
that
Oposites attract!
That’s how charges are, Opposite
charges attract and like charges repel
each other.
Conductors and Insulators
• Conductor: Materials in which one or more of the
electrons in the outer shell of its atoms free to
wander in the material
– Example: Metals such as copper and aluminum
• Insulators: Materials in which electrons are tightly
bound and belong to particular atoms and are not
free to wander
-Example: Rubber, glass
Electric wires are wrapped with rubber
or plastic in order to keep you from
being electrocuted. This is because
the rubber or plastic is a good
_____________.
A.
B.
C.
D.
Insulator
Conductor
Transfer point
Bridge for the electrons
Triboelectricity
• Charging by friction and contact.
Example:
Stroking cats fur, combing your hair, rubbing
your shoes on a carpet
• Electrons transfer from one material to
another by simply touching. For example,
– when a negatively charged rod is placed in
contact with a neutral object, some electrons will
move to the neutral object.
Charging Due to Friction
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wool
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wool
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Charging
• Charging by induction
– If you bring a charged object near a conducting
surface, electrons are made to move in the
surface material, even without physical contact.
– Example: The negative
charge at the bottom of
the cloud induces a
positive charge on the
buildings below.
Charge Polarization
Neutral charges are separated
due to a charged object
Charging
Induction: Consider two insulated metal spheres A and B.
a. They touch each other, so in effect they form a single
uncharged conductor.
b. When a negatively charged rod is brought near A, electrons in
the metal, being free to move, are repelled as far as possible
until their mutual repulsion is big enough to balance the
influence of the rod. The charge is redistributed.
c. If A and B are separated while the rod is still present, each will
be equal and oppositely charged.
Charge Polarization
• If the charged rod is negative,
then the positive part of the
atom or molecule is tugged in a
direction toward the rod, and
the negative side of the atom or
molecule is pushed in a
direction away from the rod.
• The positive and negative parts
of the atoms and molecules
become aligned. They are
electrically polarized.
Charge Polarization
• Rub an inflated balloon on your hair,
and it becomes charged.
• Place the balloon against the wall,
and it sticks.
• This is because the charge on the
balloon induces an opposite surface
charge on the wall.
• Again, closeness wins, for the
charge on the balloon is slightly
closer to the opposite induced
charge than to the charge of same
sign
Conservation of charge
• Charge is never lost it is just transferred to
other objects.
• The total Charge will always remain
constant.
What type of charging occurs in a wall when a
balloon sticks to the wall?
A. Charging by contact
B. Charging by friction
C. Triboelectric charging
D. Polarization
Electric Field
Electric field direction
• Same direction as the force on a positive charge
• Opposite direction to the force on an electron
The Electric Field
The Area around a charged object where it can
exert a force on other objects.
The field is drawn from
+ to -
Neutral
Point
Positive Plate
Negative Plate
Coulomb’s Law
Coulomb’s law
• Relationship among electrical force, charge, and
distance discovered by Charles Coulomb in the
18th century
• States that for a pair of charged objects that are
much smaller than the distance between them,
the force between them varies directly, as the
product of their charges, and inversely, as the
square of the separation distance
Coulomb’s Law
Coulomb’s law (continued)
• If the charges are alike in sign, the force is
repelling; if the charges are not alike, the force is
attractive.
• In equation form:
q1q2
k = 9x109 Nm2/C2
F=k 2
d
• Unit of charge is coulomb, C
• Similar to Newton’s law of gravitation for masses
• Underlies the bonding forces between molecules
According to Coulomb’s law, a pair of particles that
are placed twice as far apart will experience forces
that are
A.
B.
C.
D.
half as strong.
one-quarter as strong.
twice as strong.
4 times as strong.
Electric Field
Answer the following question using the picture
below. If you placed an proton between plates
A and B, in which direction would the proton
move?
A. Towards plate A
B. Towards plate B
C. It would not move.
The Superposition Principle
• When a number of separate charges act
on the charge of interest, each exerts an
electric force. The electric forces can be
calculated separately and added as
vectors.
The Superposition Principle
•
•
Each charge exerts a force on the other.
The net force on a charge is the sum of all the forces acting on it by other charges.
• Fnet = F12 – F23
Practice
1. Three charges are arranged in a line as shown.
What is the net force on q2?
Electric Potential
Electric potential energy
• Energy possessed by a charged particle due to
its location in an electric field.
• Work is required to push a charged particle
against the electric field of a charged body.
Grounding
• Since the earth has an massive supply of
charges electricity will always want to
discharge into the earth.
Lightning
• Water molecules bumping around in
clouds create an enormous charge.
• These clouds induce a charge on the earth
and when enough potential builds up there
is a discharge ( lightning)
Electric Shielding
• Unlike gravitational fields electric fields
can be shielded against.
• When you are fully inside of a conductor
the net charge is zero because the
charges builds up on the outer surface.
• This is why if your car gets struck by
lighting you will be ok.
Lightning
A car being hit by lighting is a great example
of electric shielding.
Which of the following reasons explains why you will not be
injured if you are inside your car when it is struck by
lightning.
A. The rubber tires insulate the car.
B. The charges applied to the car mutually repel each
other and spread around the frame of the car.
C. Nonsense! You will be injured when your car is
struck by lightning.
D. Lightning is repelled by the fuzzy dice hanging
from your mirror.
Static Powered Home: the
future?
Uses of Static Electricity
Spraying a Car
Positive Car
Negative
Spray gun
The paint spreads out as each negative drop repels
No paint is wasted as the positive car attracts
the negative paint
Removing Smoke from Power Station Chimneys
No smoke leaves
the chimney
Positive
Plate
Negative
Plate
Charge up the Smoke
Earthing Fuel Tankers
Fuel rubbing against the pipe can build up a
static charge which could cause an explosion
The tanker is joined to the ground with a
wire to stop a charge building up