Electric Charges & Current
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Transcript Electric Charges & Current
ELECTRIC CHARGES AND
CURRENT
WHAT IS THE DIFFERENCE?
Static Electricity and Electrical Current is
made of the same thing, electrons.
However, in static electricity there is a build
up of electrons on an object or area; while
electrical current is the flow of electrons in a
specific direction.
ELECTRIC CURRENT
Electrical devices need a steady flow of
electricity. The steady flow of charged
particles is called electrical current. The
flow continues until the energy source is
used up, or disconnected. However, It can
only flow if there is a path to travel
through.
Electrical Current is measured in Amperes
CONDUCTORS
Allow the easy flow of electricity, loosely bound
electrons that are free to move from atom to atom
metals like aluminum, gold, copper and silver are
examples of good conductors.
INSULATORS
Insulators – resists the flow of electrons making
the object safe to handle
plastic, rubber, glass
Keep charges away from body
RESISTORS
Resistors-allow electrons to flow but slow them
down considerably. This allows the current to slow
down.
CURRENT ELECTRICITY: THE
CONTROLLED FLOW OF ELECTRONS THROUGH
A CONDUCTOR
electron movement in an insulator
electron movement in a conductor
LG: to understand the basics of current electricity
VOLTAGE
Voltage – causes current to flow through an electrical circuit
Volt – unit of measure to measure this potential
A Voltage Source (battery or generator) is required to maintain the
electrical potential in a circuit.
ELECTRICAL RESISTANCE
the opposition to the flow of electricity –
measured in Ohms – symbol is the Greek letter
Omega –
Electricity will take the path of least resistance
Ex: Lightning Rod
The greater the resistance, the less current there
is for a given voltage.
a. Longer wires have greater resistance than
short wires
b. Thin wires have more resistance than thick
wire
c. High conductors have less resistance than
insulators
SUPERCONDUCTORS
There are some materials that have practically no
resistance at extremely low temperatures. These
are called Superconductors. Superconductors have
many uses including use in power lines to increase
efficiency as well as in computers to improve
speed.
GROUNDING
As discussed charges/electricity likes to move
through lines with lower resistance. Because of this
we have developed a procedure known as
grounding. Grounding means providing a
harmless, low-resistance path-a ground- for
electricity to flow.
This is used to protect buildings from damage
from lightning strikes.
A “Lighting Rod” moves lighting strikes into the
ground where the charge is absorbed.
OHMS LAW
Ohm’s Law explains the relationship
between voltage (V or E), current (I) and
resistance (R)
Used by electricians, automotive
technicians, stereo installers
It is the push or pressure behind current
flow through a circuit, and is measured in
(V) volts.
Current refers to the quantity/volume of
electrical flow. Measured in Amps (A)
Resistance to the flow of the current.
Measured in Ohms
1. Assuming the resistance does not change:
As voltage increases, current increases.
as voltage decreases, current decreases.
2. Assuming the voltage does not change:
As resistance increases, current decreases.
As resistance decreases, current increases.
READ SECTION 6.1
Read section 6.1 in the yellow textbooks and take notes.
Title these notes “Circuits”.
Topics for your notes need to include:
Defining Circuits
List parts of a circuit and what they do.
Open vs. Closed Circuits
Short Circuits
Grounding
Safety devices
Fuses
Other safety devices.
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