Basic Circuit Problem: Find Req, v1, v2, i4

  • Context: Engineering 
  • Thread starter Thread starter EngnrMatt
  • Start date Start date
  • Tags Tags
    Circuit
Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
9 replies · 3K views
EngnrMatt
Messages
34
Reaction score
0

Homework Statement



In the circuit below, VS = 65 V, R1 = 64 Ω, R2 = 190 Ω, R3 = 90 Ω, R4 = 290 Ω.
Find:

(a) The equivalent resistance (Req) at the dashed line
(b) v1
(c) v2
(d) i4



Homework Equations





The Attempt at a Solution



I found the equivalent resistance of the circuit (139.612 [itex]\Omega[/itex]) by collapsing the circuit step-by-step, but that didn't seem to work. Apparently this line is referring to something else, and I'm not sure what to do.
 

Attachments

  • 3-4.png
    3-4.png
    6.6 KB · Views: 470
on Phys.org
Can you show the steps you took to find the equivalent resistance? I'm not seeing the same result.
 
First I combine R3 and R4 (290+90) which gives 380. Then I combine that with its parallel R2 (190) which gives 1/[(1/380)+(1/190)] = 126.66, then I add that to R1 (64) which gives 190.66, then combine it with its parallel (50), giving 39.612, which I then add to the last resistor, 100, to get 139.612 ohms. If I am making a mistake, I'd like to know where.
 
EngnrMatt said:
First I combine R3 and R4 (290+90) which gives 380. Then I combine that with its parallel R2 (190) which gives 1/[(1/380)+(1/190)] = 126.66, then I add that to R1 (64) which gives 190.66, then combine it with its parallel (50), giving 39.612, which I then add to the last resistor, 100, to get 139.612 ohms. If I am making a mistake, I'd like to know where.

Ah. That last resistor, 100 Ω, is also in parallel, not in series; You're want to look at the circuit from the point of view of where the dotted line is, not from where VS is connected.
 
Okay, well I'm not sure how to handle it at that point then. I did everything the same as before, only with 100 in parallel, but that didn't seem to work, so I'm all out of ideas.
 
EngnrMatt said:
Okay, well I'm not sure how to handle it at that point then. I did everything the same as before, only with 100 in parallel, but that didn't seem to work, so I'm all out of ideas.
What value did you get?
 
EngnrMatt said:
28.373 ohms

That's what I'm seeing, too. So...

It's just possible that they want the equivalent resistance for the network to the left of the dotted line only. This would be a common step that one might do if one wanted to replace that piece of the circuit with a Thevenin equivalent for the source and network (you may or may not have learned about Thevenin equivalents yet).
 
Definitely not, considering this is the homework for just day 3 of circuits 1.
 
EngnrMatt said:
Definitely not, considering this is the homework for just day 3 of circuits 1.

Well, I don't know what else to suggest. That's the only likely alternative interpretation of the question that springs to mind.
 
  • Like
Likes   Reactions: 1 person