Tungsten is used for light bulb filaments because it has a high melting point and can operate at high temperatures without degrading. This allows the filament to produce bright light while lasting longer than filaments made from other materials. Additionally, tungsten is ductile and resistant to oxidation, further contributing to its durability in light bulbs.
Tungsten is the element most commonly used in light bulb filaments due to its high melting point and ability to produce light efficiently when heated.
Light bulb filaments are typically made of tungsten, due to its high melting point and durability. Tungsten is used for its ability to withstand the high temperatures produced when the filament is heated to emit light.
Tungsten is used in light bulb filaments because it has a very high melting point and does not evaporate easily, allowing it to glow brightly and last longer without burning out. Additionally, tungsten is a good conductor of electricity, making it efficient at converting electrical energy into light.
Tungsten is a good conductor with high resistance. It is commonly used in applications that require high resistance to heat and wear, such as light bulb filaments, because it can maintain its structural integrity at high temperatures.
Iron filaments are not used in light bulbs because they have a relatively high melting point and poor conductivity compared to tungsten, the metal commonly used in filament bulbs. Iron would not produce as much light or last as long as tungsten in a filament bulb.
Tungsten is the most common today.
Tungsten is the element commonly used to make light bulb filaments. Tungsten has a high melting point, allowing the filament to heat up and emit light efficiently without burning out.
Tungsten is the element most commonly used in light bulb filaments due to its high melting point and ability to produce light efficiently when heated.
Light bulb filaments are typically made of tungsten, due to its high melting point and durability. Tungsten is used for its ability to withstand the high temperatures produced when the filament is heated to emit light.
Usually Tungsten. Carbon filaments were used first, but scientists found that tungsten works for a far longer time period. Unfortunately, most filaments designed today don't last near as long as the bulb is rated at. Just put a dated replacement sticker on a light bulb and see when the next time you replaced it how long it went. You will be surprised.
Tugsten No, its Neon. like Neon signs actually its not neon because neon is used for neon lights the questions states what is used in light bulb filaments not neon lights.
Tungsten is used in light bulb filaments because it has a very high melting point and does not evaporate easily, allowing it to glow brightly and last longer without burning out. Additionally, tungsten is a good conductor of electricity, making it efficient at converting electrical energy into light.
Tungsten metal is used in the filaments of light bulbs because it has a high melting point and retains its strength at high temperatures. This allows the filament to get very hot and emit bright light without melting or deforming.
The answer is iron. It is used to make steel for tools,machinery,and light-blub filsments. +++ Not the light-bulb filaments. They are made from tungsten.
Tungsten is used in filaments of light bulbs.
The first successful light bulb filaments were made of carbon (from carbonized paper or bamboo). In 1902 the Siemens company developed a tantalum lamp filament. From 1898 to around 1905 osmium was also used as a lamp filament. In 1906 the tungsten filament was introduced
That depends on the bulb, and the time frame. The first bulbs had carbon filaments. Certain bulbs used in control devices have iridium filaments. Modern grocery store incandescent bulbs have tungsten filaments.Tungsten, because of its very high melting point.