I'm afraid there is a great deal of incorrect information in this thread, much of it from Sterose and Hsiboy.
I will attempt to clear up some of the confusion.
If the live is -240v then the neutral is +240v.
As I stated before, but am including here again for completeness' sake: at no point is the neutral ever above earth potential. The live switches between +340V and -340V 50 times per second (averaging out to be 240V, but there's no need to get into that right now), but the neutral remains at 0V
at all times because it is connected to the earth conductor.
The reason we do not get shocked by the neutral, is because we arent touching the live.
This is in the same way as touching the live does nothing unless you are touching neutral (neutral is effectively earth, by the way).
You do not get shocked (
if everything is operating correctly, which you should never assume) very badly from the neutral because, despite the fact that it has current running through it, both you and the neutral are at roughly zero volts. There is little or no potential difference between you and the neutral so little or no current will pass between you.
You WILL get shocked from the live
whether or not you are touching the neutral because you have a very large potential difference between you and the live conductor. It is irresponsible to an unbelievable degree that you have stated otherwise! Again I must ask where you are getting your information from!?
The real reasons touching both the live and the neutral is "more" dangerous is
1) because this creates an ideal situation for the current to flow directly across your heart
2) because touching the neutral provides a nearly resistance-free return path on the other side of your body, much better than through your shoes into the floor.
Incidentally, this is why electric pylons only carry 3 or 6 live conductors, and 1 earth on top. Because the ground is used as neutral.
The reason there is no neutral is because the electric pylons are connected in a delta configuration, not a star. There is no neutral in a delta connection, which is why it is important to balance your loads on the three phases. The ground is not used as a neutral, there is no neutral. The earth conductor at the top is used to keep the pylons at earth potential and as a degree of protection against lightning strikes.
I will not call it a neutral because it is not a grounded conductor. (Earthed conductor? What's the UK term?)
Ahem. in brit parlance it is called the neutral wire.
earth is earth, neutral is neutral no matter what your earthing system TT IT PME whatever.
In the US, there is a distinction between the ground
ed conductor and the ground
ing conductor. The grounding conductor is the earth connection, that is, the path to the earthing rod or what have you. In normal operation, the grounding conductor should be at zero volts and should not have a current flowing through it.
The grounded conductor, called the neutral, is so called because it is attached to the grounding conductor so that it remains at (well, close to anyway) zero volts despite the fact that it has a current flowing through it. In normal operation, the grounded conductor should be at zero volts but may have a current flowing through it.
I was wondering if the UK has similar terminology to differentiate the two.
A dimmer will work any way around. why?
So will all electronic equipment, why?
NOT all electronic equipment will work any way around, although anything designed for AC use must. Bipolar junction transistors, diodes, and many other DC components will only work in one configuration because the semiconductor junction will only allow current to pass through one way. Also, many semiconductors require the load to be on a certain side because of how the current to the base is detected.
the power is delivered into the local area on HT lines, and stepped down via a transformer. The neutral line has not been carried to the site only the phases. At the transformer, the middle tap is taken to earth (ground in the US) it is this point that becomes the neutral line that is delivered.
The high tension lines are in a delta configuration, and therefore have no neutral line to carry anywhere in the first place. At the transformer, a number of things can happen depending on the type of transformer and how it is connected. A three phase delta-to-star transformer will have an earthed neutral conductor connecting one side of each of the three phases to each other, as your picture shows.
To call this a middle tap is incorrect. A tap on a transformer is a connection in one of various locations along a winding, and they are used to configure the voltage that a transformer supplies to the secondary side. At this point I must stop, because I don't know the configuration of the utility's transformer feeding a residence in the UK, only the US.
The earth (ground) is a very poor conductor. How do you think they manage in hot countries? Its much easier for the current to flow along a metallic conductor.
The earth (ground) can have a very wide range of resistances depending on soil type and moisture content, but if your earthing rod isn't buried in low-resistance ground then you will have a big problem in your electrical system.
Your confusion may arise from thinking about using the earth as a return path all the way from the source of the earthing back to the electrical supply to complete a circuit. This is not the case, since the planet Earth has a virtually unlimited ability to absorb current (due primarily to the fact that it is rather large), any connection to ground results in a completed circuit. The current is dissipated at the point where it is earthed, it does not need to go anywhere from there.
Here in the uk, before double insulated circuits, we used to earth the chassis. How does the fuse blow if there is a short from live to the chassis?"
Did you know the current will flow all the way back to the transformer? Did you know that this current can be many hundreds of amps, even just for a simple kettle with a fault? The fuse does not blow because there is an excess of current.
The fuse blows if there is a short from the live to the chassis because a circuit is completed between the live and the planet Earth. There is no need for the current to be able to make it back to the transformer, it only needs to be dissipated into the ground. The excellent conductive path in question in this case is the earth bonding between the chassis and the ground, and this is what creates the large current which blows the fuse.
Please check your facts before posting! Stating incorrect information as if you know what you are talking about could get people hurt!
</sharp intake of breath>
