Why we cannot see light from a conducting wire?

In summary, when a filament is connected to an electric circuit, the light can be seen. However, when a copper wire is connected, the light is not seen. This phenomenon is explained by the different frequencies of the radiation emitted by the two types of wire.
  • #1
ggandy
22
3
When I connect filament(light bulb) in the electric circuit I can see the light.

but when I connect only conducting wire(copper line) in the electric circuit I couldn't see the light from the conducting wire even though conducting wire less resistant than filament.

How can I explain that phenomenon?
 
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  • #2
The light emitted from the wire is too low of a frequency for your eyes to detect.
 
  • #3
Light is an electromagnetic wave but it has very big frequency ( frequency of some Terraherz).

The electric current that runs through the filament of the light bulb or the filament of the copper wire doesn't have that big frequency so normally if EM-waves were created only by current distributions, then we wouldn't have light from either case.

Then how light is created by the filament of the light bulb? It is because the free electrons that are the electric current collide with the orbiting electrons of the atoms of the fillament , and those orbiting electrons gain energy and give back some of their energy as em-waves with frequency of some Terraherz. The same happens with copper atoms but the orbiting electrons of the copper atoms can't give back em-waves in the frequencies of Terraherz. That is it depends on what exactly atoms we have as to if their orbiting electrons can produce em-waves in the frequencies of some Teraherz.
 
  • #4
The filament in a lamp is a "conducting metal". It is Tungsten, chosen because it can run at a very high temperature ('white hot') without vaporising. At such temperatures, the EM radiation is visible. A length of thin copper wire will glow brightly when it's connected across a beefy battery but it will melt and vaporise very quickly. If you try this, you have to be very careful handling the wire or you will burn a groove in your fingers. It's the sort of daft thing that I did as a boy with an old battery of my Dad's - and I burned my fingers! Beware.
There is a pretty graph on this link that shows the relationship between temperature and emitted spectrum of a hot body. The spectrum is not much affected by the material used.
 
  • #5
ggandy said:
but when I connect only conducting wire(copper line) in the electric circuit I couldn't see the light from the conducting wire even though conducting wire less resistant than filament.

We need resistance to increase the temperature which in turn causes photon emission. But increased resistance also lowers current, so brighter light-bulbs actually have lower resistance, I think. I'm not sure how that works out, I guess it has to do with the filament thickness. But with constant current higher resistance should produce more light, or explosion even?
 

1. Why can't we see light from a conducting wire?

Light is only visible to the human eye when it is emitted or reflected by an object. Conducting wires do not emit or reflect light, so we cannot see it.

2. What happens to the light when it reaches a conducting wire?

When light reaches a conducting wire, it is either absorbed or transmitted through the material. The majority of the light is absorbed by the wire, which is why we cannot see it.

3. Can we see light from a conducting wire with special equipment?

Yes, with specialized equipment such as infrared cameras, it is possible to detect the light emitted by a conducting wire. However, this light is not visible to the naked eye.

4. How does the conductivity of a wire affect its visibility?

The conductivity of a wire does not directly affect its visibility. A wire's ability to conduct electricity is related to its material properties, while its visibility is determined by its ability to reflect or emit light.

5. Why do some other materials, like metals, appear to be shiny or reflective?

Some materials, such as metals, have a high reflectance of light, meaning they reflect most of the light that hits their surface. This results in a shiny or reflective appearance to the human eye.

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