R2 A B Rs t=0 R1 R3 R4 V1 vc(t) For the above dircuit, the switch has been in position A for a very long time and then at t=0 switches to postion B Given the following component values for the circut 2=3A V = 11 V C-4F R=60 R2=72 R3= 20 R= 50 Rs=20 Detemine the voltage across the capacitor just before the switch happens, ve(o-) in Volts Round your answer to the nearest single digit decimal Find v(0) in Volts (due not enter the units)

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**Circuit Analysis Problem** In the circuit diagram above, the switch has been in position \( A \) for a very long time and then at \( t = 0 \), it switches to position \( B \). Given the following component values for the circuit: - \( I_1 = 3 \, \text{A} \) - \( V_1 = 11 \, \text{V} \) - \( C = 4 \, \text{F} \) - \( R_1 = 6 \, \Omega \) - \( R_2 = 2 \, \Omega \) - \( R_3 = 2 \, \Omega \) - \( R_4 = 5 \, \Omega \) - \( R_5 = 5 \, \Omega \) **Tasks:** 1. Determine the voltage across the capacitor just before the switch happens, \( v_c(0^-) \) in Volts. Round your answer to the nearest single digit decimal. 2. Find \( v_c(0^+) \) in Volts (do not enter the units). **Explanation of the Circuit Diagram:** The circuit includes several resistors (\( R_1 \) to \( R_5 \)), a capacitor (\( C \)), a current source \( I_1 \), and a voltage source \( V_1 \). The switch moves from position \( A \) to \( B \) at \( t = 0 \). The primary goal is to analyze how the switch's position affects the capacitor's voltage over time and find \( v_c(0^-) \) and \( v_c(0^+) \), representing the voltage across the capacitor just before and just after the switch changes position.