How is this possible? What is voltage? 7.2 KV going through this small wire?

In summary, the conversation discusses the inside of a voltage transformer and the misconception that there would be thick wires inside due to the high voltage it carries. The concept of voltage is also explained, comparing it to the pressure that pushes current through a circuit. The conversation also mentions the possibility of an insulator on top of the transformer and the function of a bushing.
  • #1
foo
27
0
I finally got to see the inside of a voltage transformer as one happened to blow up and I got to view a part of it. The wild thing was that since it was a 7200 volt transformer I thought that there would be some thick wire in there. Well, the top portion of it has one little itty bitty wire traveling through it and it blew my mind that it could carry such high voltage without difficulty, well, unless somehow a high current load is drawn through it causing it to blow. Heh

Here is the pic of what I'm talking about:
http://foo.gearsector.com/foo/images/PTa_mini.jpg [Broken]
http://foo.gearsector.com/foo/images/PT_mini.jpg [Broken]

Ok, so then what is voltage? I have read many times about how it's what pushes current. But what the heck is "THIS", the this that's pushing? I get the idea that current is the atoms moving through something. Current I can imagine. But voltage? I can't imagine what voltage is. How can something push when it's not anything at all?

What gives?

Thanks in advance!

P.S. And why can so much voltage transfer through such a small wire? It's weird how the wire connecting to the top is so thick...
 
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  • #2
That looks more like an insulator - designed to hold high voltage wires away from the tower.
http://upload.wikimedia.org/wikipedia/en/thumb/3/33/Pylon.detail.arp.750pix.jpg/250px-Pylon.detail.arp.750pix.jpg [Broken]
Not sure why it would have a wire running through it unless that was a fragment of cable that became embedded when the equipment failed.


Anyway - voltage and current are different.
You can think of voltage as the pressure difference to push electrical current through a circuit. You can have very high voltages with very little current - the spark when you wear polyester clothes can be 100,000V but there is very little current.
 
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  • #3
It's just the top part of the transformer that blew off. I will take another picture tomorrow of a whole x-former to show. Sorry to confuse.

Also, the top picture is upside down. There is a connector not shown. Like I wrote, I'll post another pic tomorrow.
 
  • #4
That was my first take, mgb. It could be an insulator that is mounted on top of the transformer.

13_09_8---High-voltage-transformer--Newcastle-upon-Tyne_web.jpg



Why is the conductor running so far off-center? And did this cause the failure, or is this the usual quality of workmanship for these insulators?
 
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  • #5
There wouldn't be a conductor running through the middle of this.
My guess is that it's a bit of slag from the power cable / mounting hardware that got melted by the fire.
 
  • #6
foo said:
It's just the top part of the transformer that blew off. I will take another picture tomorrow of a whole x-former to show. Sorry to confuse.

Also, the top picture is upside down. There is a connector not shown. Like I wrote, I'll post another pic tomorrow.

http://foo.gearsector.com/foo/images/x-former_mini.jpg [Broken]
 
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  • #7
Phrak said:
It could be an insulator that is mounted on top of the transformer.
The proper term for these insulators are http://en.wikipedia.org/wiki/Bushing_%28electrical%29" [Broken].
http://en.wikipedia.org/wiki/File:DIN_52NF1000.jpg
 
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  • #8
dlgoff said:
The proper term for these insulators are http://en.wikipedia.org/wiki/Bushing_%28electrical%29" [Broken].
[PLAIN]http://en.wikipedia.org/wiki/File:DIN_52NF1000.jpg[/QUOTE][/URL] [Broken]

How does the bushing work?
 
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  • #9
foo said:
Ok, so then what is voltage? I have read many times about how it's what pushes current. But what the heck is "THIS", the this that's pushing? I get the idea that current is the atoms moving through something. Current I can imagine. But voltage? I can't imagine what voltage is. How can something push when it's not anything at all?

You can compare it to water flowing through a pipe.
The current is the amount of water that flows through per second.
And the voltage corresponds to the pressure i.e. how strongly the pump pushes the water into the pipe.
 

1. How is it possible for 7.2 KV to go through such a small wire?

It is possible for 7.2 KV (kilovolts) to go through a small wire due to the principle of electrical resistance. The resistance of a wire is directly proportional to its length and inversely proportional to its cross-sectional area. This means that a smaller wire with a higher resistance can still carry a high voltage if the length is short enough.

2. What exactly is voltage?

Voltage is a measure of the electric potential or potential difference between two points in an electrical circuit. It is measured in volts (V) and represents the force or pressure that drives electric current through a conductor.

3. Why is voltage important in electricity?

Voltage is important in electricity because it determines the strength of the electric current flowing through a circuit. It also determines the amount of work that can be done by the electric current, such as powering a device or lighting a bulb.

4. How is voltage measured?

Voltage is measured using a device called a voltmeter. This device is connected in parallel to the circuit and measures the potential difference between two points in the circuit.

5. Can voltage be dangerous?

Yes, high voltage can be dangerous if proper precautions are not taken. It can cause electric shock, burns, and even death. It is important to handle high voltage equipment with caution and follow safety protocols to prevent accidents.

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