The energy that goes in is electrical energy; the energy that leaves it is visible light, as well as heat.
The energy that goes in is electrical energy; the energy that leaves it is visible light, as well as heat.
The current passing through the filament develops power (Watts = Amps * Volts). That power is dissapated in thermal energy (heat) and radiant energy (light).
Electricity is the source of energy in a light bulb.
A light bulb uses electrical energy, and produces light, as well as heat.
I assume you mean electricity not energy. The electrical energy doesn't leave the circuit as such it is converted by a component. E.G. A bulb in a circuit will convert the electrical energy into light and some heat.
The energy that goes in is electrical energy; the energy that leaves it is visible light, as well as heat.
Electrical goes in. Electromagnetic (heat and light) come out.
Electrical goes in. Electromagnetic (heat and light) come out.
light.
A light bulb is named due to it being a bulb-shaped glass object containing a glowing element.
The current passing through the filament develops power (Watts = Amps * Volts). That power is dissapated in thermal energy (heat) and radiant energy (light).
The place lights up
Electricity is the type of energy that is used when you turn on a light bulb. When you leave a room, you use more energy by leaving the light on than if you turn it off and back on when you return.
In a light bulb, electrical energy is transformed into light energy and heat energy.
Electricity is the source of energy in a light bulb.
Most of the energy in a light bulb is heat energy.
A light bulb uses electrical energy, and produces light, as well as heat.