Q5) In the circuit below initiel capociter voltoye i 2V. Colcu lote v. (4) and +7,0 and plot them, i.(+) for V)- 1k す 3k 4MF 24
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- W In the figure below, what is the potential difference V-V, between points d and c if 81 -5.9 V. 82-1.7 V, R₁ R₂ = 140, and Rg-5.7 0, and the batteries are ideal? Number Units Ra1: Two combos or .) Determine Req for the combination of resistors shown below. Req= 7.4411 ✓ 2 R₂=110 R₁ = 4Q x C₂=3 F C₁=9F R₂ = 19 Q C₁=2 F tors & Two C.) Determine Ceq for the combination of capacitors shown below. D.) Determine Ceq for the combination of capacitors shown below. Ceq = 3.1668 F Ceq = C₁=19 F C₁ = 14 F HH Part 2: Four combos of 4 capacitors A.) Determine Ceq for the combination of capacitors shown below. Ceq C₂=11 F C3=17 F TH C.) Determine Ceq for the combination of capacitors shown below. Ceq = C₁=4 F HH Submit Answer C₂ = 17 F C₂=4 F C₂=14 F HH B.) Determine Req for the combination of resistors shown below. Req = 23.71 x 22 R₂ = 16 Q C₁-9 F R₁ = 13 Q C₁=7F C3-10 F B.) Determine Ceq for the combination of capacitors shown below. Ceq = C₂-15 F C₁ = 13 F R₂ = 19 0 C₁=18 F HE C₂= 11 F D.) Determine Ceq for the combination of capacitors shown below. Ceq = C₂-11 F C₁-5 F C₁-19 F C₁=8 F HHIn the circuit shown in (Figure 1), the potential difference across abab is 23.5 VV. Calculate the charge on the 5.00 μF capacitor. The last time I asked this question, the answer was wrong
- .3 Four capacitors are connected as shown in the figure below. (Let C = 18.0 μF.) C 3.00 μF HE th a 6.00 με 20.0 με (a) Find the equivalent capacitance between points a and b. μF (b) in parallel HE (b) Calculate the charge on each capacitor, taking AV ab = 16.0 V. 20.0 μF capacitor 6.00 μF capacitor 3.00 μF capacitor capacitor C UF i μF 4. Find the equivalent capacitance of a 4.40 µF capacitor and an 9.50 µF capacitor when they are connected as follows. (a) in series HC HC μC HC