Electrical Current and Circuits
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Transcript Electrical Current and Circuits
Where does it come from and where
does it go?
4 Basic Areas
1. Dry Cell Batteries
2. Wet Cell Batteries
3. Photocells
4. Power Plants
Electrical energy can be converted
into basically any other type of
energy
Heat
Chemical
Nuclear
Energy
Light
Electrical
Sound Mechanical
From ATOMS!!!!
The smallest particle a substance can be
broken down into
***the negatively
charged particles
found outside of
the nucleus
2 Main Players
Materials that negative charges
move easily through
• Charges are free to move
around
Good conductors:
metals such as silver,
aluminum, copper,
and mercury
A material in which negative
charges do not move well
Found on electrical wire to keep you
from shocks
Good Insulators:
Plastic, rubber, glass,
wood, and air
Every object begins as neutral. Meaning it has
no charge…we call this a 0 (zero charge).
• Then, in some
situations…they can
become
electron
neutron
proton
Objects become
charged because they
lose or gain electrons
Gain = becomes negative
Lose = becomes positive
Right, but also
wrong….hmmm
The buildup of
electric charges on
an object
Static = does not move
When the static
electricity in an
object leaves the
object
Examples: cracking noise, shock, flash of light
Objects that have opposite charges are
attracted to each other
Result = objects
are pulled
together
Objects that have the same charges are
repelled
Result = objects
repel each other
Power and control all rolled into one
fun filled adventure…
Current: the rate at which charges
pass a given point
Made by electrons moving in
a wire
AC/DC: explains how current gets moved
DC: Direct Current (one-direction)
AC: Alternating Current (bi-directional)
• Depends on Potential Energy
Voltage: the number
of electrons that are
in an energy source
Voltage can vary
Resistance: opposition
to the flow of charge
Expressed in ohms
Ώ
As resistance increases…current decreases!!!!
Amperes (A) = volts (V)
ohms (Ώ)
I = Current
V = Voltage
R = Resistance
I=V
R
The rate at which electrical energy is used to
do work
Expressed in Watts (W)
P=VxI
Power = voltage x current
Complete, closed path through which electric
charges flow
Closed
Open
1. Series: all parts are connected in one loop
2. Parallel: different loads are located
on separate branches