Could a coaxial cable be used for electric current instead of radio signals?

In summary, a coaxial cable is a type of transmission line that consists of two conductors separated by a dielectric material. The Poynting vector within the dielectric insulator allows for the flow of electrical energy between the conductors, resulting in minimal energy loss. The dielectric material can be a vacuum or a compressed inert gas, such as dry air or teflon. Other examples of insulator surrounded by two conductors include Unshielded Twisted Pair cables, although they still have an additional layer of insulation to prevent the conductors from making contact with each other.
  • #1
lufc88
52
0
http://en.wikipedia.org/wiki/Coaxial_cable
http://en.wikipedia.org/wiki/Poynting_vector
Could a coaxial cable be used for electric current instead of radio signals?

'For example, the Poynting vector within the dielectric insulator of a coaxial cable is nearly parallel to the wire axis (assuming no fields outside the cable and a wavelength longer than the diameter of the cable, including DC). Electrical energy is flowing entirely through the dielectric between the conductors. No energy flows in the conductors themselves, since the electric field strength is zero. No energy flows outside the cable, either, since there the magnetic fields of inner and outer conductors cancel to zero.'
What causes resistance in a coaxial cable is it like normal conductors or does some resistance happen in the dielectric?

Could you have a vacuum as the dielectric in a coaxial cable?
 
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  • #2
lufc88 said:
http://en.wikipedia.org/wiki/Coaxial_cable
http://en.wikipedia.org/wiki/Poynting_vector
Could a coaxial cable be used for electric current instead of radio signals?

'For example, the Poynting vector within the dielectric insulator of a coaxial cable is nearly parallel to the wire axis (assuming no fields outside the cable and a wavelength longer than the diameter of the cable, including DC). Electrical energy is flowing entirely through the dielectric between the conductors. No energy flows in the conductors themselves, since the electric field strength is zero. No energy flows outside the cable, either, since there the magnetic fields of inner and outer conductors cancel to zero.'
What causes resistance in a coaxial cable is it like normal conductors or does some resistance happen in the dielectric?

Could you have a vacuum as the dielectric in a coaxial cable?

Coax is not volumetrically efficient for carrying DC current, because of the large difference in size (and therefore resistance) of the two conductors.
 
  • #3
lufc88 said:
....Could you have a vacuum as the dielectric in a coaxial cable?

yes you can, tho that can be a real problem as if the cable gets holed and a smal/large leak develops, then water will flow into the cable with ease.

Rather, large coax cables/waveguides get filled with compressed dry air or some other inert gas. That way if the cable is holed the air will continue to escape aout the hole and stop moisture from entering.

For lowest loss coax cables, the best easy dielectric is total air (gas), but that's impossible as you need something physical to keep the inner and outer conductors separated. This is often achieved by a thin spiral of teflon and ~ 90% or so of the dielectric is still air.

Dave
 
  • #4
Is there any examples of an insulator, conductor, insulator arrangement
 
  • #5
lufc88 said:
Is there any examples of an insulator, conductor, insulator arrangement

That would be only one wire...? What is the return path for the current?
 
  • #6
lufc88 said:
Is there any examples of an insulator, conductor, insulator arrangement

google is a wonderful thing :)

http://en.wikipedia.org/wiki/Coaxial_cable

It would appear that you didnt even read through this link that you yourself gave above

scroll down there are you will even see the spiral teflon dielectric that I spoke of

cheers
Dave
 
  • #7
Thanks also does anyone know of any more examples of an insulator surrounded by two conductors?
 
  • #8
Unshielded Twisted Pair comes close to being that.
 
  • #9
lufc88 said:
Thanks also does anyone know of any more examples of an insulator surrounded by two conductors?

there are no "more" examples, as none have and can be given so far :)
and so how are the 2 conductors insulated ?? they can't be you instead should have 2 conductors surrounded by insulation

Unshielded Twisted Pair comes close to being that.

no, you still have 2 conductors surrounded by insulation, whether there's a screen/shield and another insulator ( the sheath) is irrelevent.
In a cable, you can't have 2 conductors surrounding an insulator else the conductors will be in contact with each other
 
  • #10
cheers everyone
 

1. Can a coaxial cable be used to transmit direct current?

Yes, a coaxial cable can be used to transmit direct current (DC). However, it is typically used for radio frequency signals due to its superior shielding and low signal loss.

2. Is a coaxial cable suitable for high voltage electric current?

No, coaxial cables are not suitable for high voltage electric current. They are designed for low voltage signals and can only handle a limited amount of voltage before becoming damaged.

3. What type of electric current is typically carried through a coaxial cable?

Coaxial cables are most commonly used for alternating current (AC) signals. This is because they have a low impedance, which is necessary for efficient transmission of AC signals.

4. Can I use a coaxial cable to power my household appliances?

No, coaxial cables are not designed to handle the high power demands of household appliances. They are not capable of carrying the amount of current needed to power these devices.

5. How does a coaxial cable differ from other types of electrical cables?

A coaxial cable is different from other types of electrical cables in that it has a central conductor surrounded by a dielectric insulator, which is then surrounded by a conductive shield. This design allows for better signal transmission and protection against interference compared to other cable types.

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