Finding Current, Voltage, and Resistance in Parallel Circuits

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Homework Help Overview

The discussion revolves around a parallel circuit problem where participants are tasked with finding the voltage (V0), resistance (R1), and equivalent resistance (Rp) given certain current values and one known resistance. The context includes the relationships between currents in parallel branches and the implications of voltage across those branches.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants explore the relationship between total current and branch currents, questioning how to derive voltage from known currents and resistances. There are discussions about the definitions and roles of various resistances in the circuit, including potential confusion over terminology.

Discussion Status

The discussion is active with participants providing insights and corrections to each other's reasoning. Some have successfully calculated values for certain variables, while others are still seeking clarity on how to proceed with finding V0. There is a recognition of the need to confirm the values of resistances and their implications for voltage across the circuit.

Contextual Notes

Participants are navigating through potential misunderstandings regarding the definitions of resistances and the relationships in parallel circuits. There is an acknowledgment of previous calculations that may have been incorrect, prompting further exploration of the correct values needed to solve for V0.

PrincessPerry
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Homework Statement


In the following circuit solve for V0, R1 and Rp.
I0 = 6 A
I1 = 2 A
R2 = 9 Ω

Homework Equations


R = V/I
1/Rp = 1/R1 + 1/R2

The Attempt at a Solution


I think you need to find the total voltage first, but how?
 

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Start by considering the relationship between I0 and the current in the two branches.
 
So would this be right?
I0 = I1 + I2
I2 = 6 - 2
I2 = 3 A
 
PrincessPerry said:
So would this be right?
I0 = I1 + I2
I2 = 6 - 2
I2 = 3 A

It looks fine. What else can you find now that you have I2?
 
gneill said:
It looks fine. What else can you find now that you have I2?

Well now you can find V2.
V2=RI
V2=(9)(3)
V2=27 V

This means that V1=27 V as well because it's a parallel circuit.

R1=V1/I1
R1=27/2
R1=13.5 Ω

But what do you do now?
 
What's left to solve for? Do you have enough information now to calculate it?
 
gneill said:
What's left to solve for? Do you have enough information now to calculate it?

I need to find the value for V0. And to do that, I need to find R0.
 
PrincessPerry said:
I need to find the value for V0. And to do that, I need to find R0.

R0? What's that? I see an R2 and what is no doubt the R1 that you found a value for above. Maybe you're thinking of Rp, the resistance of R1 and R2 in parallel?

As for V0, isn't that the voltage to be assigned to the voltage source? If so, do you already have a value for the potential across the source?
 
gneill said:
R0? What's that? I see an R2 and what is no doubt the R1 that you found a value for above. Maybe you're thinking of Rp, the resistance of R1 and R2 in parallel?

As for V0, isn't that the voltage to be assigned to the voltage source? If so, do you already have a value for the potential across the source?

Well yes, I already found Rp, which is 5.4 Ω.

No, I don't think I have a value for that. I just need to solve for V0. For that, I already know the current, which is 6A, but I don't know the resistance.
 
  • #10
Isn't the battery in parallel with the resistances? You already used the voltage property of parallel branches when you determined the voltage across R1...

And isn't the Rp the net resistance that you're looking for?
 
  • #11
PrincessPerry said:
So would this be right?
I0 = I1 + I2
I2 = 6 - 2
I2 = 3 A

Since when does 6-2=3?
 
  • #12
Janus said:
Since when does 6-2=3?

My careless mistake. So that changes things then.
Since I2 = 4 A, that means:
V2 = 36 V
R1 = 18 Ω
and
Rp = 6 Ω
 
  • #13
gneill said:
Isn't the battery in parallel with the resistances? You already used the voltage property of parallel branches when you determined the voltage across R1...

And isn't the Rp the net resistance that you're looking for?

Well yeah. The values for V1 and V2 are 36 V in the parallel circuit. But V0 is perpendicular to the parallel branches...

So are you saying that Rp can be used to find the value for V0?
 
  • #14
gneill said:
Isn't the battery in parallel with the resistances? You already used the voltage property of parallel branches when you determined the voltage across R1...

And isn't the Rp the net resistance that you're looking for?

Wait, I think I got it. You're right. Rp is the net resistance and V0 has the same value as V1 and V2, which I've already calculated.

Thank you so much.
 

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