Short #8 - Resistance Up, Amps Down
HVAC School - For Techs, By Techs
Bryan Orr
4.8 • 985 Ratings
🗓️ 14 May 2018
⏱️ 15 minutes
🧾️ Download transcript
Summary
This short podcast episode covers the most misunderstood portion of Ohm's law explained masterfully from 1921: when resistance goes up, amps go down.
The American Electrician's Handbook (1921) contains a lot of electrical knowledge that holds up in the present day. (The electrical testing methods don't hold up quite as well, though...) One of those principles that hold up is the idea that amps go down as resistance goes up. Amps refer to current (electrons). The ohm is the unit of electrical resistance, and it is NOT the same as mechanical resistance, such as in a compressor with locked-up bearings.
The common "water" analogy for electricity works quite well for helping us see how voltage enters the equation. Electromotive force (EMF) is comparable to water pressure, which pushes water in a hydraulic piping system. So, you can compare voltage to PSI. The current (amps, I) is comparable to the flow of water. So, if you have more pressure inside a hydraulic system, more water will flow out; as voltage (V) increases, amperage also increases. That analogy also explains why you can have volts without amps; there can be plenty of water pressure behind a closed valve, but there will be no flow.
Additionally, a smaller pipe has more resistance than a large one. So, less water (amps, I) will flow through a pipe with greater resistance (ohms, R). When resistance goes up, amps go down; the water analogy illustrates that principle very clearly in terms that we are familiar with.
With all these in mind, you can yield the three following equations that make up Ohm's law:
I = V/R
V = I x R
R = V/I
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Transcript
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| 0:00.0 | Hey, this is the HVAC school podcast. |
| 0:04.6 | Hi, I'm Brian. |
| 0:05.2 | This is the podcast that helps you remember some things |
| 0:07.1 | you forgot to know in the first place. |
| 0:09.1 | I'm going to leave out the other part, |
| 0:11.4 | because this is something that a lot of technicians |
| 0:13.8 | forgot to know in the first place and I've struggled with this my entire career. |
| 0:16.9 | I've mentioned to many of you that I started off as an electrical apprentice and I used to have |
| 0:21.9 | a lot of conversations with my dad about electrical theory and we would kind of rest an electrical |
| 0:23.5 | apprentice and I used to have a lot of conversations with my dad about electrical theory and we would kind of wrestle through some of this stuff and |
| 0:26.0 | a lot of it is because for whatever reason we didn't read as many books as we |
| 0:30.0 | probably should have because as it turns out the topic we're going to talk |
| 0:33.2 | about today is very well covered and some very old books and one of the very old |
| 0:37.8 | books is the book that I am literally going to read sections from today in addition |
| 0:42.0 | to a little bit of commentary. |
| 0:43.1 | It's not going to be long. It's a short episode so don't worry. |
| 0:45.8 | Shouldn't get too boring. This is called the American Electricians Handbook by |
| 0:49.8 | Terrell Croft. Publishers and it is in the public domain which is why it's okay for me to read from it because this was published in 1921. |
| 0:57.0 | We are 100% safe but even having said that I think the authors need to be credited. |
| 1:02.0 | It is a really really really well-written book, |
| 1:05.2 | phenomenally well-written, except for the part where it talks about testing live |
| 1:10.1 | voltage up to 250 volts with your fingers, which it does actually say in this book |
... |
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