Understanding Voltage in a Simple Circuit: A Quick Question

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Homework Help Overview

The discussion revolves around understanding voltage in simple electrical circuits, specifically focusing on voltage drops across resistors and inductors in different circuit configurations.

Discussion Character

  • Conceptual clarification, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants explore the relationship between voltage drops across components in series and parallel configurations, questioning the application of Kirchhoff's Voltage Law (KVL) and the behavior of current in circuits with inductors.

Discussion Status

The conversation includes confirmations of understanding, corrections of misconceptions, and ongoing questions about the behavior of current and voltage in specific circuit setups. Some participants provide guidance while others express uncertainty about certain aspects.

Contextual Notes

Participants are navigating through circuit configurations and the implications of component arrangement on voltage and current, with some assumptions about circuit behavior being questioned.

EvLer
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Hi all, I am asking to see if I understand voltage correctly:
This is what circuit looks like:
Code: 
-----R1---A----R2---
|           +      |
Vs         v(t)    |
|           -      |
|_________B_______ |
As I see it, v(t)(voltage drop from A to B) is voltage across R2, is it correct?
Thank in advance.
 
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that is correct
 
What? the sum of the voltage drop from R1 and R2 is equal to the EMF (battery).
 
Didn't want to start another thread, but now I have another question: after the switch in some circuit moves to a certain position I get following circuit:
Code: 
 A-------R1--------------
                |        |
                |        |
             indctr     R2
                |        |
                |        |
 B-----------------------
Then voltage drop from A to B is sum of voltages across R1 and inductor (or R2), right? Then there is a current coming from A and divides into 2 (for inductor and R2)? Or does R1 not have any current?
Thanks again.
 
Last edited:
drop from A to B is Vr1 and 2*Vr2. Even though the inductor and r2 voltages are the same, they both must be added.
 
Why 2*VR2? they are in parallel. What am I missing here? Don't inductor and R2 follow KVL?
 
oops, my bad. youre right. its just one.
 
Oh, Ok, thanks!
 

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