& = 36.0V R₁ =6.00 ₪ R₂ = 4.00 Ω R3 = 12.00 C=6.00 μF The capacitor in the shown circuit is initially uncharged. The switch is closed at t = 0. What is he final charge on the capacitor? (Hint: Long time after the switch is closed)
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- 15V a. + AM 10.2. 4 t=0 um 45² 652 im + V 1 ic (t) b. Assume switch has been closed for Find a mathematical expression for Vc it capacitor is initially uncharged and the switch is closed at t = 0. Sketch Vc lt). 20m F a long time. opening Fird an expression for ic immediately after the switch and sketch it.The Q vs t graph shown below is for the capacitor of an RC circuit. Q (C) 8 6. 4. 2. O 6. t(s) 10 20 30 40 50 60 70 80 90 100 4. Second graph The Q vs t graph shown below is for the capacitor of an RC circuit. Q (C) 8 2 2 3 4 Determine the time constant of the RC circuit. t(s) T= If C = 4 F, determine R. R = Ω In this case, was the capacitor charging or discharging? --Select- Determine the time constant of the RC circuit. T= If R = 102, determine C. C = In this case, was the capacitor charging or discharging? -Select- + #In the circuit in the following figure the two capacitors are initially charged at 45.0 V. (a) How long after closing the S switch the potential through each capacitor will be reduced to 10.0 V? (b) At that time, what will be the value of the current?
- The current in a single-loop circuit with one resistance Ris 3.75 A. When an additional resistance of 2.0 Q is inserted in series with R, the current drops to 3.0 A. What is R? R2 R R 20 62 30The switch is flipped over to position b and the circuit is allowed to reach electrostatic equilibrium. What is the measured voltage across C2 to 3 significant digits?The shown circuit has been closed for a long time. Find the charge (in uC) on the 6 uF capacitor if ɛ=11 V. 6µF 50 2µF
- 2. The capacitor in the figure below is initially uncharged and the switch, in position c, is not connected to either side of the circuit. The switch is now flipped to position a for 10 ms, then to position b for 10 ms, and then brought back to position c. What is the final potential difference across the capacitor? 12 V 150 Ω ww a b 40 μF 150 ΩIn circuit shown below, ε = 12 V, L = 100 mH, R₁ = 1 k and R₂ = 2 k. What is the current through the battery long time after the switch S has been closed? S R₂ ww E 200 mA ○ 6 mA ○ 4 mA ○ 12 mA ○ 18 mA ○ 100 mA ww R1 0000