Grounding and Bonding

FINALLY! AFTER 3 YEARS OF ELNC ENGINEERING AND 100 VIDEOS ON THE SUBJECT!!! SOMEONE WHO UNDERSTANDS LANGUAGE AND KNOWS WHAT'S GOING ON WITH GROUNDING!!!

This was a great way to learn power panel's jigsaw puzzle particularly grounding, bonding and neutral. Hope hit 5M in your life. Generations will come and learn from this wow video.

I think one of the biggest problems understanding this is understanding that when talking about ground all grounds are not created equal. You have your grounding rod or earth ground. You have your metal body of your car or the chassis ground. You have your ground on your outlet, the fault current return ground. You have your shield on your guitar cable and when you get a buzzing sound they say they have a bad or broken ground. When you weld and you can't strike an arc you check the welding ground cable to the work piece. I think you've done a great job explaining ground in this application.

Excellent video. I have been teaching this for years. I find that about 90% of electricians and engineers think that the fault goes to earth ground. Some have even argued with me on this. Again excellent video!

Nice video. Showing the path of current step by step makes your explanation very clear. During the last part of your presentation, I would add that there's a non-zero impedance in the dirt between the house ground/dirt location and the transformer ground/dirt location. The breaker will trip only if that impedance has a relatively low value (typically 5 ohms or less). Since it is virtually impossible to configure a low impedance dirt connection in some locations, you should never rely on the idea that a fault into the dirt will trip the breaker. You might ask, if that's true, then what's the purpose of that dirt connection. Its purpose is to dump lightning and static induced charge into the ground. Whenever there's a lightning strike close by, the current flowing in the lightning bolt will create a very large changing magnetic field. That changing magnetic field will induce a voltage in all of the metal parts of the electrical system (conduits, wires, etc). If you don't connect that system to a dirt ground, those metal parts can provide a pretty nasty shock. So, what I am trying to say is that you need to make it clear that there are two types of "grounding" for systems governed by the National Electric Code. First, your "tripping the breaker", "current returning to its source", etc issues are part of "Equipment Grounding". Second, draining charge from lightning and static electricity to the dirt is part of "System Grounding". Bill

I've moved back to grandpa's farm(Missouri, US) where all the electrical work was done by "touch it to see if its live" hillbillies. I knew nothing about ac so was confused and scared while working on it cause it didn't make sense. Now I know why. Neutral and ground are sometimes tied together at outlets, sometimes only hot and ground at outlets, all the breaker boxes have all the grounds and neutrals going to the bars with jumpers going to the box chassis, and the well only has 2 hot wires and no neutral OR ground. Your easy to understand explanation, the uncharacteristically salient remarks from TH-camrs, and your polite and thoughtful replies(guess the Canadian stereotype is true) may have(probably) saved my ass from turning into a flash of light or worse... getting hung up on a hot that wouldn't trip the breaker and slow roasting. Pretty impressive for a TH-cam, eh? I think I used "eh" correctly. 🤙

This was a great help to a noob trying to learn more about this! Thank you for making this available!

Great video , so many people think the grounding electrode will clear a fault or remove shock potential and it won’t and your video clearly shows how you clear a fault or remove shock potential.

Great! Thank you! Today I tried to explain the reasoning for grounding and bonding to an employee, and your illustration is WAY more efficient than anything I could come up with.

Very well done explanation that simplifies the NEC Article 250 overall concept. Thanks !

Thank you so so so much!!! You are an awesome instructor. I’ve been researching and talking to knowledgeable people about this particular subject without any understanding. You definitely have made it easy to understand. Thanks again.

Great presentation schuleuuuler. I am a retired journeyman electrician and I sure miss my trade!

Wow what a great explanation of the different ways that the N.E.C. establishes rules and regulations to protect the typical person. Keep up the good work. Remember to take out a permit from you local agency if you do any type of electrical work or upgrades in your home and only use qualified electricians to make the changes otherwise if there is a fire and it is traced to defective electrical work your home insurance may not cover the damages.

This video really helped me understand how it all worked, this is good to know because if you mess up anything it will still be able to trip the breaker.

Great video with explanation and working illustration makes it a lot easier to understand. Thanks.

Excellent video. I'd like to add that scenario #2 also takes place simultaneously in scenario #1 but imagine it's not shown for clarity. Once current hits the ground bar, it's going to flow in the neutral and ground return path and ultimately end up at the source. These paths run parallel from the bus bar to the meter and more current will flow in neutral path since it's likely made of copper vs the aluminum or steel raceway

Super and easy to understand presentation. not those confusing Talkarounds right to the point
Thanks verry much
Chris Schmidt

Amazing graphics and quality explanation. Thanks for sharing.

Best video so far and it’s been 4 years , thank you good sir 😮‍💨

Thank you for your clear animated presentation that makes thing very clear and set up different real scenarios. Great job!

New to channel. Excellent video and graphics.

what a great video! the best explanation I have every seen.all the years I have been around electric systems There has never been information this clear . thank you.....

Very informative, you answered my question in depth. Thanks! 👍

Splendidly Lucid. Deserves a subscription. Done!

New meter sockets have a separate lug for ground now and the panel bond screw would be green.

Great video! I got my degree in Computer engineering, and feel very comfortable with electrical theory. But these kind of explanations, involving EMT, and power coming in from your power pole outside, are not often taught in school. They are the great to bring Electrical systems into reality.
Thanks!

Wow! Great graphic explanation. New to the channel. A graphic is worth a thousand words. You have a new subscriber

Great video, I have a 65yr old panal that I have to use a generator on while new 100amp service is installed. I second guessed myself for a minute, should work ok.

Great video, Thanks for explaining it step by step. The animation is awesome, it made it so easy to understand.

Your videos are amazing, its so easy to follow. You really helped me when I did Electrical Theory 1 last semester with the 3 wire Edison Video. Our books and instructors are good, but you explain a 1 hour concept in like 10 minutes which really helps when theres something we need help on.

Sir I would like to say that all of your educational video is useful and easy to understand... Thank you for teaching 👍

Nice! Kratos taught me electrical topic more than school.

Great graphic, excellent explanation.

Beautiful demonstration.

As well.....if the short is grounded by a ground wire that goes to the ground bar in panel and goes into the ground via ground rod and system neutral grounding. If the metal boxing, panels, metal raceways, etc are bonded to ground, yes they are energized too by the short but are safely carried away to grounding mechanisms. All this to protect YOU from becoming a big resistor going to ground.

Thank you for the explanation on grounding and bonding.

Best explaination Ive seen! Thanks for sharing!

Thank you for making this video, it is well done and clear.

Excellent tutorial with superb graphics.

Thank u so much about this whole explanation, hopefully u can post more about this based on the NEC, like gfci, afci, all different wiring system, that kind of stuff thanks again

Superb video, clear, easy to understand explanation with animated diagram. I’m now a subscriber.

Outstanding explanation. Thanks.

Good and simple explanation. Got the guys into a good discussion about old mentality/perception thinking that the current goes thru ground and back to panel ! Like you videos, kind of like Mike ones. but it's about CEC witch is more for me :)

Mr. SchulerRuler, you have made an EXCELLENT video! Your animated diagram is an excellent visual tool that allows the viewer / student to 'see' the electrons, which is what understanding electricity is all about.
However, I do wish you kept the yellow short-circuit path on the screen longer, and speak to it more, so the viewer has more time to absorb it; you take it away quickly.
I have subscribed and look forward to seeing more of your videos!

one of the best teachers at SAIT.

Excellent video and explanation. Thank you.

Nice simple explanation

Love ur presentation; I use the toast theory at work, the young guys love it:

Perfect example of why neutral in ground are hooked together with the bonding screw so the breaker will trip when there's a short circuit to ground if not ground will become hot because of the resistance to Earth ground

That was a great video. Really clear and informative.

Thanks for the video, well done! Still confused on one thing though. If the meter and main panel both have the neutral bonded to the case/ground, would that cause objectionable current on the ground wire or metal conduit anytime there is normal current flow through the neutral? Being that there is a parallel path from the panel to the meter it seems as there would be. Just like if a sub panel was had the neutral and ground bar bonded together there would always be current flowing on the ground when there is current flowing on the neutral back to the main which would be a problem. Why is it not a problem when it’s flowing on the ground from the main panel to meter? Or am i just misunderstanding something?

Good video nicely made and looking at the comments it has surely brought some intellect's here to discuss their knowledge

Does this also apply to underground service cables? I have only a main panel in my garage and there is no grounding rod. Excellent presentation! Thank you for sharing.

Great video. Very helpful!!!!!!!

Thank you! Nicely explained!

I asked my self why do you have only 13k subscribers....you do a big job and help a lot of students

Great teacher, very nice 👍

I removed some old (unused) knob and tube wiring from my garage. Although there was no equipment ground conductor or raceway conductor, the neutral wire was much heavier than the hot wire. The hot wire was I think 10AWG and the neutral was 8 AWG. Was this their way of doing what you say about creating a low impedance path to ground?

Awesome, well explained.

Thanks for sharing. I have a pull out breaker next to the service box meter box. the main box is inside the house without a ground but the metal tube from the meter box to the main panel is wraped around with a ground but it never is attached to the ground bar. Should a ground be attached to the ground bar in this situration?

great presentation, thanks

thanks man. The visuals were great

Great explanation Sir. Thanks

Great video. Thanks

Great explanations thank you very much...

Thanks for this info sir, I have only one question, assuming the grounding wire from the panel disconnected (the grounding wire going to ground rod), will still be tripped the breaker if the load's body touched to the hot wire or live wire? If someone touched the body of the load which touched the hot wire, will not he or she be electrically shock because someone touched a hot wire and he or she is grounded, he or she will become a load of the circuit.
Thank you sir.

Love the visual 👍🏼

Great explanation. Thank you

That made a lot of sense, thanks

I'm a brand new apprentice....all I heard was Japeness....wow ..probably really helpful for alot of people....but I'm a personality sales management type...and this just blows my mind....and I'm working with it everyday now

Nice explanation.

the rule appears to be that you should never connect ground to neutral anywhere else than at the main panel. The reason for that (from countless individuals/websites online) is that once you do that, you would be a using a device's ground and neutral returns in parallel, and once the ground in a system is energized, this effectively energizes all other objects connected to ground in the system.
But given that ground and neutral are already connected together at the main panel, doesn't that do exactly what is meant to be prevented with this rule? Once you have conductors (ground/neutral wires) at equal potential somewhere in the system, how does connecting them elsewhere change their relative potential?

Excellent presentation. Should be mandatory viewing for everyone working in
this field. Question, I see step down transformers where that units earth ground is either broken or missing, taken for whatever reason. So it would seem
that in the event OF AN OPEN NEUTRAL back to the transformer, the EMERGENCY back up would not work. RESULT HOT NEUTRAL toward the
transformer. Your thought please. thank you.

This is excellent. Thank you

best I've seen so far.

wow thank u so much for this video

Great info: I have a question? on a short . net. to power....will the main breaker only trip when the current exceeds the main breaker amps? it will only trip the load breaker if short only exceeds the load circuit amps?

Thank you... Most helpful !

I love this video. Great content. I would like to suggest that you use a grounding conductor instead of the conduit to show bonding. The conduit does not stand out in your animation very well. Also conduit is used very little in residential wiring. Conduit is used extensively in Commercial and industrial wiring. Most folks who will watch this will be new to the trades and need to see the obvious to help make things clear. Again, overall a great vid. Thank you 😊

Very good explained

This is interesting and informative video but I haven't seen many if any residential services with a full all metal configuration, they're mostly PVC and romex with plastic boxes. I'd like to see that representation.

how do i know if my gas csst piping is bonded? Im looking at the icc evaluation notes on this and it says its considered bonded if "connected to the equipment grounding conductor of the circuit supplying that appliance." so does this mean that there's an extra piece required..the csst is not just coming from the floor and connected to the appliance gas connection?

awesome video Chris!! Ya toast!

Thanks, good information

Thanks for the presentation, but I'm unsure if this is code compliance because the bonding conductor was not addressed here? so how the fault current will travel through the natural conductor ? or grounding conductor for the branch circuit, you provided only grounding but no bonding.

Good information ℹ️

Thanx for sharing master

Our building power is 3-phase & 1 neutral, the neutral is grounded. But the ground wire isn't existed in the apartment sockets or I bootlegged the neutral pin to ground pin, it's working but I don't know if that has more risk than not bootlegging. But without bootlegging, I have like 110V floating on the PC case.

We use a grounding conductor from the service entrance to the toaster outlet

Really good and interesting

Great job mate

Excelent video, one question: if an isolated solar inverter has voltage between neutro and ground can I bond neutro and ground to eliminate de neutro voltage? Thanks a lot.

Great Video, thank you indeed, also would have a quick question, would you please let me know, how a metal conduit will be grounded if it is used for mechanical protection? is it grounded at one end? or two ends? the same question for the shield of the cables, do they need to be gronded at both ends? is there any certain rules to determine when the ground loop could be occurred and not to ground at both end? (for instance, communication cable/ control cable/power cable ..) thank you in advance for

Excellent!

Very well said. Thank you

Nice one Avid fan of your video idol

Genius. May you make a video teaching how to wiring a lighting contactor? Thank you for share your knowledge.

Thanks for making this video. I don’t think anyone should use grounding bar as current carrying components. The neutral of the transformer should be connected directly to the neutral bar and the bar connected to ground.

Thank you Sir.

Hi! I understood everything you said except the last part. You said the current doesn't go to ground but rather finds its way to the system ground, travels back, and then trips the breaker.
I'm not sure if this is true. But if it were, how far away can that current travel to find that system ground at the transformer?