The Dangers of Shared Neutrals: How To Avoid Being Shocked

Great video! Your statement that will stick with me from this day forward is "Electricity doesn't care about the color of wires".

one thing I was taught when taking apart joints is to break the hots, neutrals, then the grounds; and the opposite order when putting joints together. That and keep your boots on the ground and your idle hands off of metal boxes cans or cabinets. Both are good habits to form alongside not working energized whenever possible

Love that whiteboard addition to the videos -- super helpful to see things visualized like that with the fast changes (less clunky than a real whiteboard..writing, erasing, etc...)

Great explanation. I came searching for why I got a shock from a neutral when the breaker for the circuit was off while installing a LED power supply in place of a light fixture. It was a shared neutral situation I found out here! Something new to watch for. Thanks for the info!

Single pole breakers are allowed on exterior lighting circuits with a shared neutral [NEC 225.7(B)]. NEC recognizes the voltage drop benefits of sharing the neutral because typically long distances are involved with exterior lighting and they recognize the liability of loosing multiple exterior lighting circuits from a single short if multipole breakers were required. So, extra heads up when working on parking lots and street lighting.

Great thing for me to learn about ,we just did a panel upgrade for a customer and the inspector wanted me to “handle tie” all ckt breakers that share a neutral and zip tie the neutral wires together to ID them

The most basic question that I wish the video spoke to is, how do you know if there's a shared neutral? Inside my panel I saw red wires used for 120 v circuits. That caused me to trace where the wire was going, which was Romex that also had a black conductor from another circuit. I hadn't seen this before and ended up learning more about it on your channel. IMO it's crazy that shared neutral circuits are allowed in residential construction because over the life of a home, someone can easily rearrange things in the panel in a way that's unsafe. In one of my circuits, someone had put the red and black wires on the same phase and ended up with double current on the neutral, which was a fire hazard and had to be fixed. Our home inspection missed this issue.

Awesome video. I want to take this opportunitty to say thank you Dustin for this great content in your channel. I passed my Journeyman test in August 2023. I would not have done it without your videos and all the help I got along the way from knowledgeable electricians that went out of their way to make sure I understood theory and field practices. I want to learn more stuff. I am currently working at an industrial work area. I am still a bit intimidated by the environment, but the experience I am gaining keeps me motivated. I have learned that failure is apart of the learning experience. I will never let past and future failures keep me from trying my best as an electrician.

You can melt that neutral wire like a candle if both positive wires are landed on the same phase. If they are loaded up double the amount of current is returning back on that neutral. The breakers won’t trip but that neutral will fail spectacularly. Maybe a video should be done on this because it is easy to make this mistake. Keep up the great work !!

3:26 You could still get a mild shock from the upper white conductor if you touch it while grounded; a small portion of the return current will flow through you.

I went to work for the state (TX) recently and it’s pretty common for the electrical contractors to share neutrals on new installations. I’m a maintenance electrician and I’m getting pretty frustrated with the crap they leave behind for us to deal with. There’s shared neutrals everywhere and an “anything goes” color code. In Austin it’s red, black, blue for low voltage and brown, yellow, purple for high voltage. But within Austin’s jurisdiction State jobs are not subject to AHJ. So some contractors do it by Austin code and others do it by everywhere else color code.

Great explanation, as usual!
I ran a new 2-pole 20A breaker with 12/3 dedicated line for my shop table saw, splitting the duplex 5-20R receptacle into 2x 120V 20A with the shared neutral. It is so I can upgrade it down the road to a 220V 20A simplex 6-20R receptacle when I upgrade my table saw from 120V to 220V. In the mean time, it provides the saw's 120V and an extra outlet for some lights until then. The key thing is it all ties back to that 2-pole breaker so both "legs" are shut off and never just the one. Hopefully this meets code... chime in if not please!

We installed multi-wire branch circuits on the west coast well into the 2000's. Once arc faults started being required in more areas is when we moved away from it.
So expect to see it in houses up to 2008+.

Great explanation... I'm a homeowner who was taught by an electrician in my youth on how to wire houses and all kinds of electrical safety items - and went on to become an Engineer; but still do most of my own wiring.
Unfortunately I live in a 70 year old house (just a few years older than I am). While I have rewired the basement the plaster walls in the living areas are too nice to open up the walls and redo it.
In my past I have dealt with 2 houses with nob and tube wiring among family members.... Assume everything is live unless a test to ground confirms otherwise (and you might have to run a cable to a bathroom or the basement to have a good ground).
I rewired both of those houses starting with having an electrician install a new breaker panels and me doing all the work past that (and yes there were building permits and I was inspected multiple times).
Interesting story is that in one city the electrical inspector came in to inspect my brothers new large 2 car garage wiring which I had done for my brother. The inspector recognized me and said he was glad to see me as my work was always 1st class. In this case my brothers old original very solidly built 1 car garage had been moved a 100 ft or so down the alley to ladies lot who did not have a garage and there was only room on her property for a 1 car garage (reused the old garage). So this lady was really happy to get a garage for just he cost of a cement slab and anchoring my brothers old garage to the slab.
During the wiring inspection of my brothers new garage this lady came over and talked to the inspector about her desire to get her garage wired but could not afford the prices the electricians quoted; and did the inspector have any advice or options. The inspector asked her if she knew me to which she replied "of course - he's been helping his brother on his house with a lot of things." The inspector then told her that if she could convince me to do the work that he would approve it. Technically, he should not have done that. In my State a person can do their own wiring as long as proper permits and inspection is done. A person can assist an immediate family member as well. But my understanding in my State is that's where it legally ends. I thought it was a nice complement. She was happy even though she had to dig and fill in the trench for the underground service to her new garage.

In cases of a shared neutral it should be connected to a load with a pigtail so that if the load is to be disconnected the neutral connection isn't being opened. Some of the older buildings I work in have 120/208 3ph panels with 3phases sharing the same neutral, I see it all the time non pigtailed neutrals at receptials and lighting ccts it can be a challenge to determine which 3 ccts are involved.

Super good video. It is good to instruct the helpers/apprentices to be very careful in old houses and make it a requirement to turn everything off at the main before working on any circuit where the neutrals will be broken apart. One for safety and two to keep from blowing random things in the house up from open neutrals. Bought an older house and discovered that every single 120v circuit in the house were ran in a loop of conduit (from and back to panel) with a junction box every 10'. The circuits had 4 neutrals total from the panel and every neutral was half ass twisted together as no wirenut would fit with a piece of tape for cover at every junction box. Honestly don't know why the house had not burned down.

Back when I first started as an electrician, we ran a 12/3 for two circuits. But in the panel, we installed a two pole breaker. So that when you had to work on that circuit, you could do it safely. Now they make 12/2/2 makes it easier to deal with.

Other danger i see is if on and remove the main neutral then you have 240V like you said but also may end up with the loads being wired in series. Series in theory each would get 120V but it would depend on the current draw of those devices. The larger draw would pull more voltage but could also fry the other device due to drawing too much current through it.
This is also why when I work on even dead circuits I splice things in this order Ground, neutral, hot. That way you are really only exposing yourself to the hot potential once as oposed to splice the hot then the neutral. Ground first just should there be issue and sometimes for small fixtures it is a nice anchor point to hold it till you can get the other wires linked.

I know of a journeyman that became the neutral on a 277 volt lighting circuit, it knocked him off a 12 ft. ladder and fried his brain.

Aka multi wire branch circuit? I have some of these in my 70's home. It really threw me off as to why I had 240v circuits feeding 120 volt devices until a friend explained it to me. Excellent video as always. Thx

One potential way you can get shocked from a neutral is if the breaker is off but there is a device with a large capacitor connected then it could energize the circuit

First off, thanks dustin for making these videos. Extremely helpful. In addition to what you explained, it should be noted that a multi branch circuit(shared neutral) should be on separate phases. Never coming from the same phase! Keep on spreading the good word my fellow sparky.

When you're dealing with wiring of questionable installation quality something I started doing was to use a clamp on current ammeter or current probe whenever I came across commoned up neutral wires (such as multiple white wires in a wire nut) to solve the mystery . Before removing the wire nut and separating these mystery neutrals check each wire with the clamp on ammeter for presence or absence of current . If there is different current reads on each neutral wire you can compare the load current going out from each breaker and when you have a match mark the neutral wire with that breaker number then turn off the load breaker and verify both line and neutral reads go to zero amps . If two circuits both read the same current value add more load to one circuit to make them easy to distinguish between the two circuits.

40 years ago, the Contractor I worked for used lots of Edison circuits in new homes we wired. Another electrician I worked with told me of this very situation where he got shocked touching a neutral wire.

Several years ago I built a post and beam garage. I intended on doing a little woodworking and other projects. I was very busy and couldn’t find the time to wire it myself. I hired a seasoned electrician with a great reputation. I had already set the sub panel and pulled the cables. I explained that I wanted 3/4” conduit with metal boxes and GFCI receptacle on each circuit. I came home and found that he used 1/2” conduit and shared the commons and grounds and had not installed the GFCIs. I called him and he said, “The GFCIs were not necessary and that he was able to pull all the wires through the 1/2” conduit. I paid him and a few weeks later installed the GFCIs which wouldn’t work. After asking an electrical engineer, I found out that a GFCI meters between the neutral and the hot wires not the hot and ground. They shouldn’t be wired using a shared neutral.

I'm not an electrician, but I have done some electrical work, because my state is pretty lenient with that stuff. However, my rule when I fool with anything electrical is to shut off as far back as I can without it being a problem. For example, I had to change my dryer plug awhile back, I flipped the breaker labeled "dryer" and I tested the plug, and it still said 120 volts. Someone had something wired wrong, and I didn't know where the other line for the dryer was, and I still don't know what the second line on the dryer breaker went to, so I just had to kill the whole house, just to change one receptacle. That's the fun of living in a 30 year old house trailer, that God knows who has lived in before you.

Love your videos! I have been a draftsman (drawing) all my life, not by profession, but a drive. I love drawing day. I always work stuff out by drawing. The way you explain things and visually show it is Awsome. I have had so many AH.HA moments this way. Thank you so much, keep rocking it! God Bless.

What an awesome dude! Passing out life saving information like it ain't no thing! Respect for that! And in a concise and captivating manner. Thank you!
Job. Well. Done!

Genius. Clear and concise description. You’re and excellent teacher.

I know this is late brother but I know of a fellow electrician that past because of this very situation. South east texas last year. Please be careful out there brothers.

Adding to your example @ 4:50, by connecting the neutrals of the loads you basically create a series circuit, increasing not only voltage but resistance. Most likely damaging the load.

Working on an old house with shared neutrals (and buried boxes) right now and it’s driving me bonkers. Thank you for the reminder to make sure I’m being safe with this stuff. Old greenfield cable is always waiting to bite you at every turn.

Important to think about during ballast replacements in 277V applications in large rooms with rows of lighting fed by multiple circuits. I'm sure there's nothing like having a hot neutral fall off of the fixture your working on into your ear or eye while standing on a ladder.

I appreciate this video so much, with how we do wiring currently most apprentices never learn how or why this was done. In my area there was a housing boom when the wiring was like this and I encounter it frequently and use the opportunity to teach it but now we have a great illustrated video!

Excellent explanation of the shared neutral. As a lighting designer, we could share a neutral with each of three phases when laying out a large system like an office corridor. It was easy to balance the loads, they were all the same fixtures with the same lamps, and it did save a ton of wire in these big spaces.

Glad to see this issue is being addressed. I am in a 30's house where wiring is all in conduit. Everywhere they could, shared neutrals were used. When I added some circuits years ago, I just assumed this was standard practice, followed it and did not fix them. But somehow it just did not feel right. This was long before the days of the internet, TH-cam and all the learning resources now available. I did go back and check the circuits. I actually made and kept detailed diagrams of the wiring because of how they mushed so many wires together in a single conduit run. They all seem to be on different phases. If I ever need to do more, I will run separate neutrals.

Thank you 👌 my 1940’s bungalow I keep finding tricky electrical issues with. Spilts tapped up in the walls and in the attic entirely without junction boxes. Then when the time came and the old fuse panel was replaced with circuit breakers. They threw some new wires at it and walked away. I’m stripping the attic out to air seal and insulate. I’m installing new low voltage LED lighting while I’m up there.

Reminds me of switch loops and the measures electricians used in the 80’s to combine wires to save a few feet. Navigating the branches in a home from this era is a mess - fortunately they didn’t play the shared neural game in my house.
On a side note - one example of a shared neutral application today would be to a main lug sub-panel.

Those "You can't be shocked by a neutral" people aren't going to like this one either LOL

I always wondered why, when doing panel swaps, we had to put three wire homeruns on a 2P breaker… that makes a lot of sense now!! Thanks man!

One other thing happened when I was having my business rewired in an old 1937 commercial building with one, two or three businesses being housed in it over the life of the building. The electrical panels and wiring had been changed and upgraded (sometimes by amateurs) several times. The landlord had a supposed electrician come in and change the timer for the signs from one business in the building to another but the conduit to the sign was still in the first business location. The pseudo electrician took his power from the other business main panel but somehow left the connection of the neutral on the first business main panel, so there was a hot wire from one panel and the white wire from another main panel. So my commercial electrician who was installing whole new panel for my business shut all power off to my panel at meter. As he was pulling the main leads the hair went up on his arm near the neutral and he stopped immediately. The back feed was quite significant. Traced it to that old timer box. I think it was a once in his 15 year experience happening. Still when all power to the business is shut off and supposedly we all had our own meters, and main panels, i can see the mistake would be easier. But you have said always check for current even in a dead box. Jerry. PS Love your channel. Have watched most of your videos

I saw this on one of your best of videos and it was eye opening! Not allowed where I live but I see them in places I do work. Never considered overload of the neutral if both power wires are on the same bus.

yea we ran 12 /3/4 until very recently. on home runs we would pull three phases one neutral one ground. saved alot of room in the conduit, ment more circuits in a smaller pipe.

Great video 👍. One thing that I keep finding in older homes I'm called to with shared neutrals. The neutrals shared with the red and black on the (same phase) which- could cause overheating/over current carrying conditions on the neutral wire.

Great explanation!!
Yes I’ve gotten a poke before 3 phase 347v because the wire nut was not on the wires properly. It came from the neutral. Hurts like an sob

Thanks! This is an awesome heads up as I've never thought of that and am a novice to home electrical work.
I have a very strange situation that led me to this video and in short, I have a 220v breaker turning on a 110v circuit (bathroom, etc.) and what looks like power fluctuations in some of the outlets & the oven. My uncle mentioned I have a "floating" neutral I need to find. He said that the neutral and ground wires are not supposed to connect/be shared anywhere except back at the sub-panel (I think) and his believes this is the source of the strange stuff I'm seeing and/or a neutral is being "borrowed" from another circuit. There was one of the main 100 amp fuses coming in from the street but he's saying that's not why I'm seeing the power fluctuations.
A video about why you can't share a ground with neutrals would be great since that doesn't make sense to me why electrically it wouldn't work. It sounds like from this video it should work but it's just dangerous to work on live (not that I'd do that)?
He's telling me I need to test each outlet/circuit to find the issue. I'm guessing I need to disconnect each and every neutral at the bus bar in the subpanel, then I can test for continuity between the grounds and neutrals at each switch/outlet to see where they are wrongly connected?

A one-bedroom apartment was divided and converted into two studio units. I am unit A and my neighbor is unit B. We both have been living in the property for 4 years. A couple of months ago unit B has been having trouble with his outlets. Which affects my bathroom lights. Landlord refuses to fix the problem. And Unit B refuses to get extension cords and fix the problem as well. I am being forced to either give unit B a key to my unit in case I'm not home to access the circuit breaker. Or landlord threatened to evict both of us, if we don't work together in regards to this issue 🤷

Dustin's videos are always exciting to watch.

Thanks! My son told me about shared neutrals when I attempted to remove some aluminum wire in a panel that didn't seem to be doing anything. He said sometimes electricians use neutrals to save on wire and best left alone until the circuits can be checked fully. Panel is circa late 80's

Recently had a situation that they had run 12/2 and tied the neutrals together in another switch box. We we’re replacing a bathroom outlet with a GFCI ( place was built in the early 70’s ). Couldn’t get the GFI to set. I had to start running down the wires in the other places that the power went out with that breaker. Found the neutrals tied together in a switch box.

I still see shared neutrals being used in new contruction for Dishwasher and Garbage disposal receptacle all the time out here in Az.
I did not find in the NEC anything about those breaker needing to be tie together but it totally makes sense so Im going to start doing it. Thank you foe the awesome presentation

That was a great explanation. The white board work was really helpful. Thanks.

in the course of retiring some old cables in my house I found a ceiling light fixture with 2 circuits in the box. The light was controlled through a switch at either end of the staircase. Whoever wired it originally ran 14/2 between the switches, so at the light fixture there was no neutral available...until he brought in another circuit and tapped the neutral. It made my blood run cold. On a later renovation project we had the cable running between the switches exposed as the drywall was off, so I was able to replace the cable run.

You are awesome man. Keep up doing what you do. Always feel appreciated. From Kenya.

This is so helpful. I’m glad I stubbed upon this.
I’m trying to figure out why there was a 12/3 coming from maybe the panel. Going to a bathroom and office.

Thank you for this video. We are actually having to do this in some apartment buildings right now (they want all plugs on their own breaker, and it is in the blueprint to run them like this). Great info to k ow before we turn the power on.

Fantastic coverage of this topic, thanks!

Thanks for great info. Always appreciate your advice.

Not only have I gotten bitten by a neutral, when I was a teenager I got shocked off an electric water heater. Changing out an element. Uncle Gary turns off the breaker and tells me it's off. Of course I verified the power was off with a multimeter that I tested on a known live circuit. I tested across the terminals on the upper thermostat, but didn't think to check each leg to ground. What happened was there were two single pole 30s in the panel which has been there since probably the 50s or 60s. If memory serves me right the two 30 amp breakers were not even near each other, just randomly placed. Talk about some shady work.

I don't know if this what I ran into or not. I was working on a dishwasher and shut the breaker off and checked the "hot" to the "ground. No reading on meter. Went to pull the wire out and got a shock. I started checking everything I could think of. I finally found I had to shut a second breaker off to completely kill that circuit. I notified the homeowner and told them they needed to call an electrician to get that made right. With everything hooked up everything worked the way it was supposed to. Any thoughts as to what I had. I am sure I'll get lots of repesponses that I should have "Red tagged" the system and walked away.
My second question is; what is a "floating neutral?" I have worked several places and other techs would come across a circuit acting weird and they would say "must have a floating neutral." I would ask theses guys how they knew that and how do find it and fix it? Never got an answer. I have sent this comment to several tutorials but never got a reply. Can anyone help me?

Wish I had seen this sooner! I was baffled when I got a good buzz! And then I couldn’t figure out why I would see 240v. Thank you for clearing that up! The house was built in 1967. Some crazy wiring in it.

I ran into this a decade ago. I was replacing an outlet an I checked the voltage from hot to ground and it was off. I found several neutrals in the box with a pig tail to the outlet . The pig tail was 14 ga with a 12 ga hot. I decided to change the neutral to 12 and when I disconnect the neutral bundle and it arced. Now I test everything with a non-contact tester.

Thats good to know. Just bought a house with older wiring and I tend to work basic repairs or replacements live. But never again until I make sure its 💯 safe.

I had my helper shut off a breaker for 240v lights, I didn't think to tell him to shut both breakers off and he only did 1. I got an eye opening experience when I took the wire nuts off thinking that the power was completely off. Thanks for your videos!

Yes we did mostly built 90 has share neutral at kitchen disposal and dishwasher so after we demo the kitchen. What we did is to make the breaker to be one pole with tanden has clip together with if the disposal trip they trip same time. Hoping mostly home owner got some tip between the share nuetral.

question on any kind of 10/3,12/3,14/3 aren't the hot conductors supposed to be landed on a 2 pole breaker to keep you from getting shocked off the neutrals?

I'm not an electrician by trade. Yet watching this video made my jaw drop. 😮😮😮 WOW (and scary). Fantastic information, thank you so much!!!!

I have one of these situations in my laundry room I believe. Two outlets one for the washing machine and one for the dryer (gas). I was replacing the outlet for the washer (it's breaker was off) and got a slight shock. Turned off the breaker for the dryer and continued working no problem. Would this be done because those appliances touch when placed side by side as a fail-safe if one of them has an issue?

Super clear explanation! Thanks!

A secondary path can also be from Satellite or Cable service as the coax cable is directly bonded to the ground outside which can be an alternate path that can get you if there is any bleed through on the power packs or the devices themselves. If you ever have a customer tell you the Cable guy asked if their lights flicker or point out the coax is melting you have a potential open neutral or a bad connection in a box where someone was able to get 5 wires in a 3 wire wire nut or something similar the coax used should have no voltage when measuring from neutral or ground at the outlet to the metal connector of the cable jack, coax is also not rated to carry current but will until it cant anymore.

My house has that type of wiring. The cool thing is they soldered all multiple wires then taped no wire nuts, 1941 vintage. Nice video.

"Now you have a 240V shock on your hands" classic!...loved the video thanks

@7:45 So this is actually a really common misconception. If you are using two 1 pole breakers with a handle tie that does not mean they are common trip. What makes a breaker common trip is actually an internal mechanism on factory 2 pole breakers with the common trip feature. If we have a 1 pole 15A circuit for example and I hold the breaker closed and someone shorts it downstream it will still trip and kill the circuit even though it's being held closed, hence trip-free breakers. We can actually see this in the UL 489 certification with the following:
Independent Trip - A 2-pole circuit breaker that does not have an internal common trip feature is marked “Independent Trip” or “No Common Trip.” An external handle tie alone does not qualify as a common trip mechanism - a breaker of this type is marked to indicate it is an independent trip breaker.
The main point of the handle tie with multiwire Branch Circuits is to make it so if someone actually moves the handle both circuits will open/close together. It's also to make it so that if some other electrician shows up who didn't do the original work, they see the handle tie and look and know it's a multiwire circuit and to be careful. If we have two 1 pole breakers in good condition there is a good chance, they still will trip but it's not guaranteed and if the breakers are older and stiffer, they probably won't trip.
If you read 210.4 (B) (B) Disconnecting Means. Each multiwire branch circuit shall be provided with a means that will simultaneously disconnect all ungrounded conductors at the point where the branch circuit originates.
Doesn't actually mention anything about the trip.

Im an electrician from Australia. Just moved to Canada and been seing alot of weird shit like this. We don’t have split phase in Australia. Thanks so much for this explanation.

3:23 - "this part [of the neutral] won't [have current on it]". Correct, to a point. But it's still electrically connected to current carrying conductors. So if in touching it you create a nice path to ground you _will_ get a shock from it. Maybe only a little one, the comparative resistance of you and the return conductor likely results in you only experiencing a few volts. But just because a metal part is not forming an active circuit is not enough to assume it to be entirely safe.
Oh. And GFCI breakers will soon show you if you have shared neutrals. The imbalanced current will make them trip quicker than you can say Romex! 😀

Hey I think your videos are great for beginners and I think you have a great way for normal people to understand things, I’m hope you could help clarify some more about two hots one neutral, because of the video about running cross overs from 120 volt generators, to a panel . So I’m wandering about wouldn’t that be same as adding the Amps of all the loads the generator pushes and would it double the amps on the neutral back to the generator,
Any thoughts would be helpful and thanks

My current home was built in the late 60s as a part of a 450 home subdivision. Without going into detail, I discovered that this technique was used in the construction of these homes.
Once I learned of this, I was much more careful working on circuits in the house, but I will say that it's difficult to identify the other circuit that shares the neutral.

The handle ties we installed didnt trip the other single pole breakers in square d qo panels. Someone was talking about crimping them down. On hundreds of panels in a highrise Marriott.

This is why you never stop looking for unknowns. Just cause it hasn't happened to you, doesn't mean it won't. Thanks for your lessons.

Awesome video. I am an HVAC Service tech by trade and trying to learn more about non HVAC electrical so this is very helpful

I have one. Re wireing old house, had 3 breakers on, so 3 live circuits,. one for the single outside outlet, (which i put in at the main box), one ran to the shed (easy to tell) and one ran inside for a total of 3 outlets, all rewired by me from what i thought was the beginning of the circuit (i spliced from the floor, near the main box, and terminated at the last oulet). As i was trying to trace wiring for a individual lighting circuit, i went to snip romex tied and taped into knob and tube, (in the ceiling) and accidently crossed the netual and hot on the romex and, yup, sparks. Tripped the breaker. Now heres the kicker. I flipped the breaker back on, and went testing becuase that line should not have been live. Turns out, with only the one breaker i installed for the first 3 outlets turned on, apparently most if not all my house had 120v, or say 5v or 6v without a load introduced. So i have been messing with wires and around wires and etc all summer as i was doing demo and such, never tried testing them because well, all the breakers were off. How does my house have power throughout, on one 20 amp breaker. ? Why am i getting readings of 5v at places, but as soo. As i plug in something, its 120v? (Little house, around 700sq ft)

Great Videos! I have a Question!!!
How would the scenario below effect the True Neutral going back to the Panel box???
I'm a carpenter, not an electrician but I have working knowledge of electricity. On a bathroom remodel I was taking down two can lights from the ceiling that operated on one switch that were going to be relocated in the same room. 12-2 (power from the breaker box) was coming into the light box in the ceiling. He ran one 12-2 wire to the switch in the wall to send power to and from the switch back to the light. So, in the light box I had a white wire that was actually a black wire(power), and it was tied into the black wire that ran over to the other light for its power source. Usually when I see this the electrician has always put black tape on the white wire coming into the box from the switch so you would know it was being used as a black(hot), but he did not in this case. So, looking in the light box in the ceiling you would see two blacks together, two whites together and a black and white together.

Excellent video! I am constantly telling guys that electricity doesnt care about the color of the wire..... You have to understand its path not its color.

Sawmill tech here. You should cover ground loop when dealing with a short to one side of a "space saver". I had a light switch cover plate that had 110v to ground after removing it from jbox. And the switch was. In good working order.

I always anticipate that something won’t be correctly done. Just found multi wire branch circuits run from a quad-breaker with the ever popular handle tie delete option. Eaton quad handle ties fit nicely on Murray quads. I always expect Neutrals to go live when unbuttoned until I check them with my chicken-stick post disconnect. I think Uncle Fester used a lost panel neutral to energize his light bulb.

happens sometimes with 2 way switching e.g upstairs downstairs the light in the stairwell maybe connected to the upstairs neutral while the phase/live/active/hot feed is coming from the downstairs lighting feed.
in this situation the light will have to be on but two situations can causes a shock on is pulling the upstairs neutral out at the fuse board and the other is touching live conductors in the upstairs switch or light fitting.
in our older houses the second switch did not contain a neutral or earth which makes testing for voltage hard.

Is there an easy way to find shared/borrowed neutrals? I just bought a house in Texas. It was built in 1978. I've gone to replace some of my receptacles, and gotten a tickle on the back of the hand from a neutral wire when I had already turned off the breaker for that receptacle (NCVT seemed to indicate it was dead). I eventually found the second breaker that I needed to flip to make sure it was completely dead (verified with multimeter). Every 3-way switch in this house was done with 14/2! I have converted every 3-way switch in the house to a single pole (leaving behind labels on the wires to indicate where that wire is going or coming from and putting blanks where one of the 3-way switches had been). With WiFi light switches, it's still convenient enough. Pretty sure there are still some shared neutrals. They seem to cause such strange behavior. For instance, even on the lowest dimmer setting, the LED lights in my dining room were almost full brightness. After converting my breakfast nook light to a single pole so the hot and neutral came from the same breaker, the dining room light was able to get very dim or bright just as desired. Now I'm noticing my TV room lights don't get very dim on their lowest setting... makes me think another shared neutral still exists (and yes, I have tried calibrating my dimmer to make sure it can go to the dimmer's actual lowest setting). I'm amazed shared neutrals were ever allowed.

Thanks! I have a ton of shared neutral circuits that do go to j boxes but I've always been in the habit of shutting off all circuits that enter a box prior to any work. However I didn't realize the code called for common trip on shared neutral circuits, thanks for pointing this out! I'd like to read more about that in the code, do you know what section this is in?

I was replacing a countertop kitchen outlet in a 1979 condo wired in emt with a GFCI outlet. Shut off the breaker, checked the outlet with my multimeter. Started working and got zapped. Wiring for the LR outlets passed through that box and the LR circuit had a shared neutral with the kitchen circuit. No handle tie on the kitchen and LR breakers. AND the hot wire for the LR circuit was white. No black tape. Not that taping a white wire black would be code, but it wouldn't hurt. BTW, do you wire everything in 12-2 with 20 amp breakers. Used to seeing 14-2 with 15 amp breakers except where 20 amp is required.

It’s pretty wild to hear Dustin mention my name. I’ve been watching the channel since I first got into the electrical trade and it’s been a huge help. I appreciate you sharing your knowledge and experience with the rest of us. Thanks!

In an EMT wired house, would it be overkill to label the white neutral wires that are in a junction box ? For example: a label that says "circuit 8". Are there ways to test if a white neutral is being shared between 2 circuits ?

If I want to power a workshop and I installed a subpanel with ground and neutral going back to main panel. Wouldn't every circuit I add on that subpanel be a shared neutral?

Yep. That got me in my early days. I couldn’t figure out why in the hell I was getting bit by the neutrals when I obviously had the breaker for my circuit off. No one ever told me about it but I figured it out. 😂

Awesome great explanation, but every time I work on circuits I work on them like it's hot all the time unless the main feeder breaker is off then I don't really care and even at that in my head I don't take any chances because I've seen a lot of bad stuff gone wrong with ppl working on circuits panels thanks for sharing be safe buddy 💯

Hey man, love the videos. Keep it up. What Code section covers the handle tied breaker?

This actually happened to me on a shut down. We were replacing a set of gear and had all the conductors disconnected. Both sides of the mains were locked and tagged out. I was wedged inside the gear, assembling the neutral buss. All at once the gear became energized and I was getting the shock of my life. While the system we were working on was locked and tagged, there was a neutral somewhere in the building that was tapped in to what we were working on. A time clock had came on and some of that unbalanced load came back through the feeders that terminated in the gear we were in. Coincidentally, three phases that we had tied up had floated over and were touching the gear. That was the first time I went home and thought about never going back.

I just fixed a wiring issue in my house that had this problem, but a more severe violation. 14/3 wire running 6 rooms upstairs. Every neutral receptacle was discolored or burned. I fixed it myself Raj 2 home runs to separate junction boxes.

Well now i have to go up to my fishing cabin and install a tied pair of breakers. Thanks, learn something new every vid.

I just got a call from a potential customer who described their problem as a receptacle getting hot and also whatever it was being plugged into it was flickering and getting super bright. As I think about it, I wonder if this is a shared neutral issue? I've dealt with dead circuits before because the wires came loose in the panel box, but with a shared neutral, if that neutral becomes loose, now >120 V is going out on that circuit, right? I'll find out tomorrow when I go to investigate. This is an older house built in the '60s or '70s I believe..

At my house I received a shock from the railing of my garage door. I'm planning to fully rewire the garage, but I'm curious if someone can identify exactly where the main issue is.
Turns out I have two circuits ran through BX into the garage with a shared neutral. Measuring voltage at a receptacle(circuit #1) I have 120V hot-neutral; but 170V neutral-ground and ~25V hot-ground.
The second circuit powers a light. The lightswitch box is metal, and is screwed onto the metal mounting bracket for the garage door. So I completed the circuit from the garage railing (and thus, the BX) to earth and received a shock.
I assume the BX is not acting as a proper ground back to the panel, due to poor fittings/age of the system. What would the other open wire be? Is the hot wire on circuit 1 in contact with the ground?