This was called a filament and was found in older electric light bulbs.
If you were to put a bare wire belonging to anything in a glass of water, the electricity flowing through the wire would have no reason to continue to travel through the wire instead of dispersing in the water. The water offers less resistance, so the electricity flows through that instead of the wire. This is known as creating a short circuit, or a short, for short! With no electricity flowing through the bulb, it will turn off.
The battery connected to the bulb has the potential chemical energy in it when it is connected by means of wire to the bulb the chemical energy in the battery is converted to the electrical energy which flows through the wire to the bulb glows the bulb which is a form of light energy after some time the bulb starts emitting heat which is heat energy.
If Thermal Transient Testing involves heating and then cooling a metal wire then the average light (incandescent) bulb is a good answer.
A looped wire would have a stronger magnetic field because a looped wire is closer to the magnet all the way aroud.
Go to the store and get some copper wire, galvanized nails, and some oranges. Cut the orange in half with a kitchen knife. Take a penny and wrap the wire around it. Take a nail and stick in the orange about 1 inch away from the penny. Wrap the loose end of the wire around the nail once. Finally touch the loose end of the wire to the metal part of the light bulb. Create more orange batteries until the bulb lights up. GOOD LUCK! That was my sis love ya
This was called a filament and was found in older electric light bulbs.
The thin wire inside an electric bulb is called a filament. It is usually made of tungsten and becomes hot and emits light when an electric current passes through it.
Electricity through a thin wire (filament) makes it glow, which is prevented from burning through the wire by gas inside the bulb.
Its a coiled tungsten filament.
The wire inside a light bulb is called a filament. It is typically made of tungsten and emits light when an electric current passes through it, heating it up to produce light.
The thin wire in an electric bulb that glows is called a filament. It is typically made of tungsten and glows when electricity passes through it, producing light.
a filament
When the wire inside a light bulb breaks, it interrupts the flow of electricity, causing the circuit to become incomplete. Without a continuous flow of electricity, the bulb cannot produce light. The broken wire prevents the filament from heating up and emitting light.
Yes, electricity can be generated by moving a magnet inside a wire coil. This is known as electromagnetic induction, where the changing magnetic field induces an electric current in the wire coil.
To answer the first part of your question the bulb looks sort of like an egg but has a more rounded top made of either clear or colored glass and the bottom consists of a metal piece that has the wire inside it. The wire is a thin piece of metal made of copper and an electric current runs through this wire creating light.
Filament
When you move a magnet back and forth inside a coil of wire, it induces an electric current to flow in the wire. This process is known as electromagnetic induction and is the principle behind how electric generators work. The strength of the induced current is determined by the rate of change of the magnetic field.