Download Chapter 15 - Cloudfront.net

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Nanofluidic circuitry wikipedia , lookup

Electric machine wikipedia , lookup

Electrical resistivity and conductivity wikipedia , lookup

Multiferroics wikipedia , lookup

Eddy current wikipedia , lookup

Maxwell's equations wikipedia , lookup

Electrification wikipedia , lookup

Magnetic monopole wikipedia , lookup

Magnet wikipedia , lookup

Hall effect wikipedia , lookup

Superconducting magnet wikipedia , lookup

Faraday paradox wikipedia , lookup

History of electromagnetic theory wikipedia , lookup

Magnetism wikipedia , lookup

Magnetochemistry wikipedia , lookup

Electromotive force wikipedia , lookup

Electrostatic generator wikipedia , lookup

Electromagnetism wikipedia , lookup

Force between magnets wikipedia , lookup

Lorentz force wikipedia , lookup

Electromagnetic field wikipedia , lookup

Electric current wikipedia , lookup

Ion wikipedia , lookup

History of electrochemistry wikipedia , lookup

Electricity wikipedia , lookup

Electric charge wikipedia , lookup

Static electricity wikipedia , lookup

Electrostatics wikipedia , lookup

Transcript
Chapter 15
Electricity and Magnetism
History of Electrostatics
• Electrostatics is the study of the nature,
behavior, and uses of static electricity.
• Benjamin Franklin is famous for his study
of electricity!
The Study of Static Electricity
The Electric Charge:
We know that all matter consists
of tiny particles called atoms which contain
protons, neutrons, and electrons.
Protons and electrons have a
certain amount of “electric charge.”
This electric charge enables them
to attract and repel each other.
The Study of Static Electricity
The Electric Charge cont…
Protons are positive (+)
Electrons are negative (-)
Electricity is the result of the transfer of
electrons.
The Study of Static Electricity
Ordinarily – the charges are in equal balance and
the atom is said to be “neutral.”
If an atom loses and electron or gains an electron,
it is “charged”..
To many electrons? It is negatively charged.
To many protons? It is positively charged.
The Study of Static Electricity
Opposite charges neutralize each other!!!
One of the ways to cause an atom to gain or
lose electrons is with friction.
When an objects “rub” against each other,
the electrons can “rub off” one object onto
another.
The Study of Static Electricity
• Whenever charges
are built up in two
objects by friction,
one object is charged
negatively and the
other is charged
positively.
Electric Fields
• We cannot see electric fields – we CAN
map them with imaginary lines.
• These lines are called “lines of Force”
Measuring Charge
• The more electrons an object gains or
loses, the stronger its charge will be.
• The unit of charge is the “coulomb”
• One coulomb equals 6.24 billion billion
electrons. (6.24 X 1018)
Electrostatic Laws
• Law of electric charges: opposite charges
attract each other, like charges repel each
other
• Law of electric force: strong charges
attract strongly, weak charges atatract
weakly
Electrostatic Laws
• Coulomb’s Law of Electric Force
- strength of the attraction or repulsion
is directly related to the strength of the
charges and inversely related to the
distance between them.
Coulomb’s Law of Electric Force
The force between two
charges is 100 Newtons
1. What happens if the
distance d is doubled?
2. Double both charges?
3. Double d and charges?
Sharing a Charge
Contact – neutral object touches a
charges object – charged
object transfers the charges.
This can happen with positive and
negatively charged objects.
Charging by contact is
permanent!
The transfer of charges is
conserved – that is the amount
of charge is the same before
and after the transfer.
Transferring Charges
• An object’s charge
can be taken away
completely by
bringing it into contact
with the ground!
• The earth is so “huge”
it can soak up an
object’s electrical
charge.
• This is called
grounding!
Inducing a Charge
• A temporary transfer
happens without direct
contact.
• This is called “induction”
• Charging by induction
produces two “new”
charges instead of one.
• The example of this is the
balloon on your hair!
Detecting Charges
• Small charges can be detected by means
of an electroscope.
• When uncharged,
the foil leaves stay
down.
• When charged, the foil
leaves rise up.
Electrostatic Generators
• The Van de Graaff Generator
• The charges move
outward!
Protection from Lightning
• Benjamin Franklin
knew that if the
charge from a
lightning strike could
be directed into the
ground, then the
strike would be
harmless.
• So, He invented the
Lightning Rod.
Protection from Lightning
• Franklin’s famous experiment is VERY
DANGEROUS!
• Numerous people over the years have
tried to duplicate it and have died from
being struck by lighting!
• Do not attempt!
Magnets and Magnetism
• The first magnet ever
used was actually a
lodestone which is a
natural magnet.
• It is a form of the
mineral magnetite!
Magnets and Magnetism
The Vikings were
the first to use
lodestones for
navigation.
The Nature of Magnets
• Magnets come in various sizes and
strengths.
• Magnets are used in televisions and
speakers and computers.
Magnetic Fields
• The property of attracting
objects by the magnetic
force is known as
magnetism.
• The region around a
magnet that other objects
are attracted to are the
magnetic field.
• Compasses are affected
by these fields.
• The iron filings represent
lines of force.
Law of Magnetic Poles
• All magnets possess poles.
• One pole always seeks North.
• One pole always seeks South.
• The Law of Magnetic Poles states:
Like poles repel and unlike poles repel.
Law of Magnetic Poles
http://www.windows.ucar.edu/tour/link=/physi
cal_science/magnetism/bar_magnet_inter
active.html