Series Circuit Resistance: Finding R1 and R2 | Step-by-Step Guide

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In a series circuit with resistances R1 and R2 connected to a 12V battery, the current increases by 0.20A when R2 is removed and by 0.10A when R1 is removed. The equations I = 12/(R1 + R2), I + 0.20A = 12/R1, and I + 0.10A = 12/R2 are used to derive the values of R1 and R2. After solving the equations, the correct resistances are found to be approximately 35 ohms for R1 and 50 ohms for R2. The calculations involve substituting the current back into the resistance formulas to confirm the values. This step-by-step approach effectively determines the resistances in the circuit.
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Homework Statement



Two resistances, R1 and R2 are connected in a series circuit across a 12V battery. The current increases by 0.20A when R2 is removed leaving R1 connected across the battery. However, the current increases by just 0.10A when R1 is removed, leaving R2 connected across the battery. Find (a) R1 and (b) R2.

Homework Equations



I = 12/(R1+R2)
I + 0.20A = 12 / R1
I + 0.10A = 12 / R2

The Attempt at a Solution



I = 12 / (12/I + 0.20A) + 12/ (12/I + 0.10A)
I = I + 0.20A + I + 0.10A
I = 2I + 0.30A
-I = 0.30A
I = -0.30A.
Then, I plugged them back into equation 2, 3 but got the wrong answers.

The correct answers are 35 OHM and 50 OHM. PLease help!?
 
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V=IR
Both: 12=(R1+R2)I;
R2 removed: 12=R1(I+.2)
R1 removed: 12=R2(I+.1)

Solve for R's
R1=12/(I+.2)
R2=12/(I+.1)

Plug into original equation
12=(12/(I+.2)+12/(I+.1))I

Solve for I
I=.1414

Plug I back into R1 and R2
R1=12/(.1414+.2)=35.15ohm
R2=12/(.1414+.1)=49.7ohm
 

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