The answer is given as follows
In the diagram below, C1 = 6.54 mF, C2 = 1.55 mF, and C3 = 9.02 mF. The potential difference across C2 is 91.0 V. What is the potential difference between A and B?
1. (a) Find the equivalent capacitance for the following network. GoMF 30 MF I S MF 2b MF Ce
In the capacitor arrangement shown C1 =
75 mF and C2 = 41 mF. If a voltage of V = 98 volts is applied, what
is the energy stored (J) in the capacitor C1?
In the capacitor arrangement shown C1 = 96 mF and C2 = 32 mF. If
a voltage of V = 104 volts is applied, what is the energy stored
(J) in the capacitor C1?
c C,
3
3. (1 point) In the figure below, C = 20 mF, C, = 10 mF. Cx = 30 mF. and Vo = 21. How much charge is stored by Ci? LE A. 0.28 C B. 1.5C C. 0.420 D. 0.14C E. 0.58 C
A 3.0-mF capacitor initially charged to 50 V and a 8.4-mF capacitor charged to 30 V are connected to each other with the positive plate of each connected to the negative plate of the other. What is the final charge on the 8.4-mF capacitor? (Answer in mC)
Determine the structure of the molecule using the MF and the IR
Spectra.
MF: C&HoN2S. Show all your work. IR spectrum: 2500 Wavenumber cm-1 2000 1500 15N NMR: 13C NMR: H NMR:
A
4.20 mF and an 9.00 mF capacitor are connected in parallel to a
70.0 Hz generator operating with an rms voltage of 115 V.
What is the rms current supplied by the generator?
A4.20 pF and an 9.00 pF capacitor are connected in parallel to a 70.0 Hz generator operating with an ims voltage of 115 V Part A What is the ms current supplied by the generator? 19 ΑΣΦ ? А Submit Request Answer Provide Feedback
A 3.0-mF capacitor initially charged to 50 V and a 8.4-mF capacitor charged to 30 V are connected to each other with the positive plate of each connected to the negative plate of the other. What is the final charge on the 8.4-mF capacitor? (Answer in mC) I posted this question earlier and the answer the person got was wrong. They said the answer was 402 mC but Webassign said it was incorrect. Any help would be much appreciated!
In the diagram below, C1=30 uF, C7=15 MF, Cz=10 uF, C=20 MF, and C=10 pF. Find the equivalent resistance of the block (C1, C2, C3, C4): Cegt MF. Find the total equivalent capacitance of this circuit: Ceg UF Find the charge on capacitor Cs: 95-ENAC. Find the voltage drop across capacitor Cs Vse С. C3 HE HA C2 C4 HE + 90.0 V C5