Calculating Voltage Across R1 in an RC Circuit with a Capacitor

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To calculate the voltage across R1 in the given RC circuit, first determine the charge on the capacitor after two time constants using Q = CV, resulting in approximately 34 volts across the capacitor. The current in the circuit can then be calculated using Ohm's Law, I = (V - Vc) / (R1 + R2), where Vc is the voltage across the capacitor. This leads to a current of about 0.31 Amps, which can be used to find the voltage across R1. Ultimately, the voltage across R1 is approximately 4 volts.
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In the following circuit R1 = 12.9 Ohms, R2 = 3 Ohms, V = 39 Volts, and C = 10.1 micro-Farads. If one waits 2 time constants after the battery has been connected (charge in capacitor is zero before the battery is connected), what is the voltage across R1 in volts? Hint: first find the charge in capacitor after this amount of time, and then find the voltage across the capacitor. Use a loop rule to find voltage across the equivalent resistor and use this to find the current in the circuit at this time.




I attached a picture.

I tried solving it by first using Q = CV to find Qmax. My Qmax was 393.9 micro coulombs. I then multiplied this number by 0.63 because 1-e^(-2/2) is 0.63. This number was 248 micro coul. After finding this number i plugged it back into the Q = CV equation to solve for the new V and I got 24.57. I thought I could subtract the V's and get the answer, but its not working out. Can someone help me out?
 

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Actually, I'm looking for the new voltage. The answer is 4.28, but I can't seem to find the right steps to get that.
 
Once you have that 34 V (34 is approximate) on the capacitor, you can find the current in the circuit at time 2RC using I = V/R = (39-34)/15.9 = 0.31 Amps. The V across the R1 is then 4 Volts or so.
 
While the charging of the capacitor
Q = CV[1 - e^-(t/RC)]
I = dQ/dt = CV*(1/RC)[e^-t/RC] = (V/R)[e^-t/RC]
Put t = 2RC and R = R1+R2 and find I. Then voltage across R1.
 

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