hyproelectricity
SOUND
Electrical energy.
Electricity moves through wires.
Electrical energy enters the hair dryer and is converted into kinrtic energy as a smallelectric motor spins a fan blade. Electrical enrgy is also converted into thermal energy in a grid of wires that heat up. The fan forces air across the hot wires , and hot air blows out of the nozzle of the hair dryer. You can hear the sound energy that comes out. In other words in is converted from Electrical energy -to- Kinetic energy and, Electrical energy -to- Thermal energy and, last but not least, Sound energy!
It means, STAY AWAY FROM ENERGY WIRES!!!
hyproelectricity
SOUND
SOUND
Electrical energy.
Line loss, or heating of the wires. The insulators prevent the loss of energy.
Electricity moves through wires.
Electrical energy enters the hair dryer and is converted into kinrtic energy as a smallelectric motor spins a fan blade. Electrical enrgy is also converted into thermal energy in a grid of wires that heat up. The fan forces air across the hot wires , and hot air blows out of the nozzle of the hair dryer. You can hear the sound energy that comes out. In other words in is converted from Electrical energy -to- Kinetic energy and, Electrical energy -to- Thermal energy and, last but not least, Sound energy!
Electrical energy enters the hair dryer and is converted into kinrtic energy as a smallelectric motor spins a fan blade. Electrical enrgy is also converted into thermal energy in a grid of wires that heat up. The fan forces air across the hot wires , and hot air blows out of the nozzle of the hair dryer. You can hear the sound energy that comes out. In other words in is converted from Electrical energy -to- Kinetic energy and, Electrical energy -to- Thermal energy and, last but not least, Sound energy!
It means, STAY AWAY FROM ENERGY WIRES!!!
Electric energy.
a load
An electrical current - and the energy it carries - can travel through any conductor. Quite often, these conductors will be wires.