Where’d The Electricity Go?
A while back a guy came in with a blower motor issue.
Well, OK, the blower motor failed. But, this guy wanted a
more in-depth explanation for its demise rather than the
usual, “The motor has worn out.” kind of explanation.
So, I proceeded to tell him how the brushes on the
armature have worn down, and quite possibly the armature
itself has worn down to a point that electric current can’t
pass through the windings of the motor.
I thought that was a pretty good description of ‘your
blower motor has worn out, sir.’ as I’ve ever heard.
Apparently not, and he had his reason too! His primary
concern was, “Where’d the electricity go?”
“Go?” I exclaimed, “It didn’t go anywhere. Your blower
motor is just worn out. The electric is still there.” That bit
of information fell on deaf ears. His understanding of
direct current was that it flowed like water, and since
the blower wasn’t working the electricity should be spewing
out all over the floor of his car. Even though he had no idea
what electricity was, and he proved that by asking, “So what
does electricity look like? I’ve never actually seen the stuff.”
(Me neither for that matter.)
I guess I wasn’t exactly following his line of thought, I
took a guess and asked,” So, what is it that you’d like me to
“Yes,” he answered. However, this guy wanted an answer
that was the equivalent to a NASA rocket scientist’s explanation.
OK, I’ll give it a try. I’m no rocket scientist but I might be able to hum a few bars.
My explanation began with lightning bolts, and how static electricity worked, then onto the atom and how they have the same number of electrons and protons. Then when an atom loses a few electrons it becomes charged. This in a sense is the basis of the formation of electricity. My dissertation was equivalent to a college professor’s lecture on the subject. But, apparently this guy fell asleep during the class and didn’t understand a word I said. I was either boring him with such details, or I wasn’t even close to what this guy really wanted me to tell him. Confused and bewildered he only had one comment on the whole thing. “It was working just fine yesterday, and today it won’t even come on.” (Like I haven’t heard that one before.) I don’t know where to begin or where to end at this point.
I guess some people expect some sort of warning when an electrical motor or system fails. Sometimes it does, but a lot of times it just stops working. Maybe this guy wanted a bit more of a drastic warning system. Maybe a little red warning flag that pops out of the glove box, waves at ya, and then writes a note on the instrument panel. I don’t know. I don’t know what to think! Look, the thing ain’t working, it needs a new one, and NO…, electricity can’t condense into a puddle on the floor! What more do ya want?!??? “Is it anything like steam then?” he asked. “Is what like steam?” I asked. “Electricity,” he then scolding tells me, as if I forgot what subject we were on. “Well, yes it is and no it isn’t,” I answered, “You can’t really see true steam and you can’t really see electricity, but they are both energy sources that have great potential.” That led to a discussion about the white smoke coming out of a steam engine and how that must be same thing as the smoke that comes out of an electric motor when it burns up. Sure, sure, it’s the steam and/or the electricity escaping. Whatever… let’s just move on from all this smoke stuff. This guy still didn’t understand why the electric wasn’t spilling out. I pointed to the wall socket and told him that you don’t see anything falling on the floor there do ya? Oh, he had answer for that one. “That’s AC current, he said proudly, as if he knew what he was taking about, “It switches back and forth from positive and negative. Since it does that it never has a chance to fall out because there’s an equal push and pull of the two different polarities.” I can see where this discussion is heading. Somewhere between Crazyville and Lunatic City and I’m stuck in a taxi with the guy who knows everything about anything. “So, what you’re saying is that DC current should be falling out somewhere?” I asked sarcastically. Oh sure, ask an idiotic question like that, when I’m supposed to be the smart guy to a guy who thinks AC current is held in the wall socket because of an equilateral force between positive and negative. Why don’t I just hang a sign around my neck that says, “Tell me anything, I’ll believe it!” Hang on; he’s working on a thought provoking answer. I suppose he just has to think this through a minute and get it into an illogical format that fits the rest of his story. He stands there pondering for a minute, changes his stance and rubs his chin for a bit, then… he gives his final solution to this perplexing problem. “DC current isn’t all that strong. That’s why it’s used in cars, ya know. AC is way too powerful for them. Besides, they haven’t found a way to keep an extension cord dangling out of a car that won’t get all tangled up while you’re driving,” he proudly deduced. All-righty-then… … … … I’ll just leave this discussion right here. I can’t top that one, nor, do I even want to try. I’ll just replace this guy’s blower motor and send him on his way. He left the shop with a beaming smile. The kind of smile that someone usually has after they’ve won some sort of debating contest. He says to me as he walks out the door, “I just taught you something you didn’t know.” With that, my day is now complete. I’m so glad he stopped by. I couldn’t have made it another day without his wonderful explanation of electricity. I guess everyone has their own theories but this one topped them all. Just to be on the safe side, I’m going to make sure all the batteries on the display racks have those little red and black protectors on the terminals. Wouldn’t want any of it leaking out, you know.