Electricity
Voltage (volts)
= Current (amperes) x Resistance (Ohms)
Greater amount of particles
= greater electric field
Long, thin wire at a high temperature
= highest resistance
Current electricity?
= kinetic energy
Short, thick wire at a low temperature
= lowest resistance
Static electricity?
= potential energy
What is the difference between a conductor and an insulator?
A conductor allows electric current to flow easily, an insulator does not.
Why don't protons move?
Because it would change the element
Current
Flowing electricity measured in amperes
How are resistance and current related?
If you increase the resistance, the current decreases
How are voltage and current related?
If you increase the voltage the current will increase
How does increasing the voltage affect current?
It increases the current
Law of Electrical Charges
Like charges will repel, unlike charges will attract
How is static electricity different form current electricity?
Static is potential energy and current is kinetic
Resistance
That which slows the flow of electrons in a circuit, measured in ohms.
How are the shock you receive from a metal doorknob similar to a bolt of lightening?
The are both examples of electrical discharge.
Electric force
The force between charged objects
Voltage
The pressure (force) that pushes electrons through a circuit, measure in volts
Electric force
attraction or repulsion between electric charges
Strength of the electric field of a charged particle
becomes greater as the distance from the particle decreases
Law of Conservation
states that charges are not created or destroyed
Conductor (wire), Voltage source (battery), Resistor (light bulb)
three basis features that all electric circuits must have
Conduction
transfer of charge by direct contact (example: socks touching skin transfer electrons)
Induction
transfer of charge through an electric field (example: finger near doorknob)
Friction
transfer of charge through rubbing (example: rubbing socks on carpet)
