Electrical – Neutral / Hot wire installation confirmation

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I removed our ceiling light today and the house wiring had no distinction between the two wires connecting to our light. The light fixture's wire had the same color insulation, but inside, one of the wires had red metal/copper and the other had silver metal. I assumed that the silver metal wire was therefore connected to the neutral house wire and so assumed the house wire on the right was neutral. Again, the house wires were identical, AFAIK.

Then, our new light had two similar wires as well, although the insulation on one of them had white writing, which I assumed should be connected to the neutral house wire.

Questions: 1) Am I correct in what I assumed and did?
2) I have a cheap multimeter with red and black leads. Can I use this on the live circuit to confirm which is which? I tried using my multimeter in an outlet, and both ways I tested the two-pronged outlet (red on left, black on right and vice-versa) gave me the same 120v reading – neither flipped the direction of the meter, so hopefully there is another way to do this. My meter looks like this: https://goo.gl/images/9eF4KP

Best Answer

The fixture is supposed to be wired so that the hot from the house goes to a particular point on the fixture. In the case of screw base the central contact is supposed to be hot and the thread contacts neutral.

The lamp cord has one side marked (ribbed in your case) to distinguish the two conductors. See Which side of a two-wire cable should be used for "hot"?

Grounding Conductor

If the building was renovated/built in 2008, it's not likely the circuit does not include an ground conductor. However, there are multiple ways to satisfy the grounding conductor requirement according to NEC 2008 250.118.

A copper, aluminium, or copper-clad aluminum conductor.
Rigid metal conduit.
Intermediate metal conduit.
Electrical metallic tubing.
Listed flexible metal conduit meeting specific conditions.
Listed liquidtight flexible metal conduit meeting specific conditions.
Flexible metallic tubing meeting specific conditioins.
Armor of Type AC cable as provided in 320.108.
The copper sheath of mineral-insulated, metal-sheathed cable.
Type MC cable where listed and identified for grounding in accordance with specific criteria.
Cable trays as permitted in 392.3 and 392.7.
Cablebus framework as permitted in 370.3.
Other listed electrically continuous metal raceways and listed auxiliary gutters.
Surface metal raceways listed for grounding.

Checking for a Grounding Conductor

The most accurate way to verify whether or not there a proper ground connected, would be to check for continuity between the junction box and the grounding electrode system. In most situations this is not an option, so another test must be performed.

Checking Continuity to the Grounding Electrode System

To run this test you'll either have to be within reach of; or be able to run a lead to, the grounding bus in the main service panel.

Set your multimeter to the continuity setting or the lowest resistance setting.
Place one lead on the grounding bus bar in the load center.
Place the other lead on the junction box under test.

If the meter beeps or gives a reading close to 0, the box and the load center are electrically connected. This means there is a proper grounding conductor installed. If the meter does not beep or has a reading of infinity, the box and the load center are not electrically connected. You'll have to install an approved grounding conductor throughout this circuit, if you want proper grounding.

Checking Continuity to a Known Good Ground

If you have a known good ground nearby (from another circuit, for example), you can use this ground to test for an equipment ground at the box in question.

Set your multimeter to the continuity setting or the lowest resistance setting.
Place one lead on the known good ground.
Place the other lead on the junction box under test.

If the meter beeps or gives a reading close to 0, the box and the known good ground are electrically connected. This means there is a proper grounding conductor installed. If the meter does not beep or has a reading of infinity, the box and the known good ground are not electrically connected. You'll have to install an approved grounding conductor throughout this circuit, if you want proper grounding.

Check Continuity to the Grounded Conductor

If neither of these options are available, the next best option is to check for continuity between the box and the circuits grounded conductor (neutral). These two conductors should be electrically connected (bonded) at the main service panel, so checking continuity between them can (usually) determine if there is an equipment ground.

WARNING: This method relies on the circuit being installed correctly. If the grounded conductor (neutral) is (incorrectly) connected to the grounding conductor anywhere along the circuit, this test may give invalid results.

Set your multimeter to the continuity setting or the lowest resistance setting.
Place one lead on the grounded conductor (neutral).
Place the other lead on the junction box under test.

If the meter beeps or gives a reading close to 0, the box and the grounded conductor (neutral) are electrically connected. This means there may be a proper grounding conductor installed. If the meter does not beep or has a reading of infinity, the box and the grounded conductor (neutral) are not electrically connected. You'll have to install an approved grounding conductor throughout this circuit, if you want proper grounding.

NOTE:
All continuity testing should be carried out while the circuit is dead. Shut off power to the circuit at the breaker before working on the circuit, and verify the circuit is off using a non-contact voltage tester.

_{Electricity is dangerous and can lead to property damage, injury, and death. If you do not feel comfortable working with electricity, please contact a qualified Electrician.}

Electrical – Ceilling light wont switch off after a new installation

Old UK wiring

Old UK wiring was as shown below

enter image description here

A comes from the fuse-box/consumer-unit (possibly via other junction-boxes/roses for other ceiling lights). B goes to the next ceiling light. C goes to the light switch for this lamp.

However most electricians will not have cable type C with two red wires and will have used regular cable with a black and a red wire and will put red tape around the end of the black wire to indicate it is "switched live" and not neutral (as it's black colour would suggest).

From what I've read, sometimes they would connect C's black wire to position 3 (the other red live wires) and then C's red wire would be the switched-live return from the switch. Connecting the black to the reds would make it obvious to an electrician and that might be why no wire had red-tape on it's end.

Checking

If someone has removed the red tape, you can:

turn off the lighting circuit at the fuse-box/consumer-unit,
check there's no voltage present with a voltage tester (preferable non-contact type) and
separate all the wires,
use a continuity tester to see which red & black pair are connected/disconnected by the switch

enter image description here
A typical Non-Contact Voltage detector (NCV) and a typical mains tester

enter image description here
Finding which wires go to a switch using a multimeter (at least CatII 600V rated) on an isolated circuit (off at fusebox and tested for no 240V AC).

Your wiring (Guesswork)

Looking at your photo, I think the top of the screw-block connections from left to right are probably:

Live (3,4,5 in the diagram in this answer)
Earth (9)
Neutral (6,7)
Switched Live (2)

In which case your lamp should be connected at the bottom of the two right-most positions.