the filament is neither too thick nor too light
because when they are first switched on a large surge of electrical current flow through a cold filament. When you first switch on the bulb the resistance is small, so you get a current surge which breaks the weakened filament. The filament is weakened by repeated heating and cooling from the bulb being turned on and off; which makes it brittle.
A small gauge filament is a thin wire with a high melting point, just like the filament in light bulbs. That filament will heat up when electricity will pass through it. If you have enough battery power, I would suggest using a piece if pencil lead.
An electric current passes through a thin filament, heating it until it produces light. The enclosing glass bulb prevents the oxygen in air from reaching the hot filament, which otherwise would be destroyed rapidly by oxidation.
As the name implies, support wires support the filament wire in the bulb, The filament, of course is the wire that glows white hot, giving out light
No
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To create an electron cloud that can be shaped into a beam.
The globe is the outer glass shell. The shaped coil inside is the filament. Wires and the stem support the filament inside the bulb. There are gases within the light bulb to prevent it from burning out. And the base is to securely support the bulb.
The Filament
Cetin Derin has written: 'Vibration of an ell-shaped uniform filament with clampted ends' -- subject(s): Mechanical engineering
Filament
Filament was made from plastic. The filament was very stable and smooth.
Anther and filament
The stamen, or to be more specific, the microsporangia.
Filament
Filament provides support to the anther