Message from @djcum2quick

Discord ID: 484820828001927168


2018-08-30 20:18:20 UTC  

That how I learned it back in AP physics

2018-08-30 20:18:30 UTC  

My teacher even showed this vid in class

2018-08-30 20:18:36 UTC  

It explains it very well

2018-08-30 20:19:01 UTC  

It’s using the loop rule

2018-08-30 20:19:08 UTC  

I think

2018-08-30 20:19:53 UTC  

Oh wait you need the divider rule

2018-08-30 20:20:04 UTC  

Or does it not matter?

2018-08-30 20:20:37 UTC  

I don’t necessarily *need* it

2018-08-30 20:20:49 UTC  

However that is what is *supposed to be used.*

2018-08-30 20:20:53 UTC  

Alright well this method is really easy

2018-08-30 20:21:08 UTC  

Have you heard of the loop rule?

2018-08-30 20:21:17 UTC  

Explain it

2018-08-30 20:21:25 UTC  

Maybe, but chances are, no

2018-08-30 20:21:48 UTC  

I’m not going to do as good as an explanation as that vid

2018-08-30 20:21:53 UTC  

Definitely check it out

2018-08-30 20:22:05 UTC  

That’s fine, I’ll watch it

2018-08-30 20:22:41 UTC  

What level are you at? HS physics or college physics/electrical engineering?

2018-08-30 20:22:52 UTC  
2018-08-30 20:23:15 UTC  

Collegiate introductory Electrical/Computer Engineering.

2018-08-30 20:23:22 UTC  

Oh okay

2018-08-30 20:24:52 UTC  

Well definitely learn from that vid I posted because it’s a really simple method to calculate the current and resistance of everything but then find another vid of the divider rule

2018-08-30 20:25:20 UTC  

I’ve never heard or been taught that rule so idk the difference between the two methods

2018-08-30 20:25:54 UTC  

It’s a rule that effectively states that the current will divide whenever it has the option to.

2018-08-30 20:26:10 UTC  

Most current heads towards the resistor with the least resistance.

2018-08-30 20:26:22 UTC  

Less heads towards the one with greater.

2018-08-30 20:26:42 UTC  

This took Puppy like 1.5 minutes, I swear

2018-08-30 20:26:47 UTC  

😕

2018-08-30 20:27:08 UTC  

*Meanwhile as I sit rather cluelessly*

2018-08-30 20:28:21 UTC  

Damn

2018-08-30 20:28:51 UTC  

Well idk then, I’d need to learn that rule then

2018-08-30 20:29:11 UTC  

Meh, I was stumped for a while then I tried to reverse engineer it from the answer

2018-08-30 20:29:16 UTC  

Then I realised where I went wrong

2018-08-30 20:29:18 UTC  

Omfg

2018-08-30 20:29:21 UTC  

Welp

2018-08-30 20:29:23 UTC  

Got it

2018-08-30 20:29:25 UTC  

Smh

2018-08-30 20:29:28 UTC  

Lmao

2018-08-30 20:29:32 UTC  

Brb got class in an hour, and I need to study and charge my phone

2018-08-30 20:29:34 UTC  

Nice

2018-08-30 20:29:53 UTC  

I was like. . . So what if I use the *most basic formula I have available*?

2018-08-30 20:30:01 UTC  

V=IR