A light bulb works by passing an electric current through the filament, which is usually made from a high resistance substance such as tungsten. When the current flows through, the filament glows which produces the light. When it burns out, no electricity passes and no glowing occurs.
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When a light bulb burns out, it means that the filament inside the bulb has broken or worn out, disrupting the flow of electricity and causing the bulb to stop producing light. The bulb will no longer work until the filament is replaced.
A light bulb works by passing electricity through a filament, which heats up and produces light. The filament is usually made of tungsten, which glows when it reaches a high temperature. The glass bulb surrounding the filament is filled with an inert gas, such as argon, to prevent the filament from burning up. When the electricity flows through the filament, it causes the atoms in the filament to vibrate and release energy in the form of light.
An incandescent light bulb produces light by passing an electrical current through a filament, usually made of tungsten, which heats up and emits light as it glows white-hot. The glass bulb that encases the filament is filled with inert gas to prevent the filament from oxidizing and burning out.
An electromagnetic light bulb works by passing an electric current through a filament, which heats up and produces light. The filament is enclosed in a glass bulb filled with a gas that helps to maintain the filament's temperature and prevent it from burning out. The electric current creates an electromagnetic field that excites the atoms in the filament, causing them to emit light.
A light bulb works by passing electricity through a filament, which heats up and produces light. The filament is enclosed in a glass bulb filled with inert gas to prevent it from burning out. When the electricity flows through the filament, it causes it to glow and emit light. Here is a simple diagram to illustrate the process: Diagram of a light bulb with labeled parts: filament, glass bulb, and inert gas
A bulb doesn't work when the filament inside is broken because the filament is the component that allows electric current to flow through the bulb. When the filament breaks, it creates an open circuit, preventing electricity from completing the path and reaching the light-emitting part of the bulb. Without the flow of current, the bulb cannot produce light.
When a light bulb burns out, it means that the filament inside the bulb has broken or worn out, disrupting the flow of electricity and causing the bulb to stop producing light. The bulb will no longer work until the filament is replaced.
A light bulb works by passing electricity through a filament, which heats up and produces light. The filament is usually made of tungsten, which glows when it reaches a high temperature. The glass bulb surrounding the filament is filled with an inert gas, such as argon, to prevent the filament from burning up. When the electricity flows through the filament, it causes the atoms in the filament to vibrate and release energy in the form of light.
If you hear rattling when you shake a light bulb, it could mean that the filament inside the bulb is broken. This can cause the bulb to not work properly or to flicker. It's best to replace the bulb to ensure proper function and safety.
A light bulb works by passing electricity through a filament, which heats up and produces light. The filament is usually made of tungsten, which has a high melting point and can withstand the heat. The electricity flows through the filament, causing it to glow and emit light. The bulb is filled with an inert gas, such as argon, to prevent the filament from burning up. The combination of the heated filament and the gas inside the bulb produces the light that we see.
An incandescent light bulb produces light by passing an electrical current through a filament, usually made of tungsten, which heats up and emits light as it glows white-hot. The glass bulb that encases the filament is filled with inert gas to prevent the filament from oxidizing and burning out.
An electromagnetic light bulb works by passing an electric current through a filament, which heats up and produces light. The filament is enclosed in a glass bulb filled with a gas that helps to maintain the filament's temperature and prevent it from burning out. The electric current creates an electromagnetic field that excites the atoms in the filament, causing them to emit light.
A light bulb works by passing electricity through a filament, which heats up and produces light. The filament is enclosed in a glass bulb filled with inert gas to prevent it from burning out. When the electricity flows through the filament, it causes it to glow and emit light. Here is a simple diagram to illustrate the process: Diagram of a light bulb with labeled parts: filament, glass bulb, and inert gas
Some raw materials that can light a bulb include electricity (from a power source), a filament (usually made of tungsten), a glass bulb to contain the filament, and inert gases like argon or nitrogen to prevent the filament from burning. These materials work together to produce light when the filament heats up and emits photons.
If the bulb's filament is broken, the whole circuit becomes open. If the bulb is in a series circuit or is the only bulb, the electricity would no longer flow. If the bulb is in a parallel circuit, along with other bulbs, then only the blown bulb would go out, and the other bulbs would still work.
Electricity goes through the "electrical foot contact", heats up the wires (connected to the tungsten filament) therefore lighting the light bulb up. The filament is supported by wires. The glass mount holds up the two wires connected to the filament. That is how I think the light bulb works. Have a look.
When electricity flows through the filament inside a light bulb, it heats up and produces light. This process is called incandescence.