A 4.00-µF capacitor and a 6.00-µF capacitor are connected in parallel across a 600-V supply line. a) Find the charge on each capacitor and voltage across each. b) The charged capacitors are disconnected from the line and from each other. They are then reconnected to each other with terminals of unlike sign together. Find the final charge on each capacitor and the voltage across each.
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- Given a 3.00 μF capacitor, a 6.00 μF capacitor, and a 2.00 V battery, find the charge on each capacitor if you connect them in the following ways. (a) in series across the battery 3.00 uF capacitor 6.00 μF capacitor μC μC (b) in parallel across the battery 3.00 μF capacitor 6.00 μF capacitor JC μCProblem 6: Suppose you have a 9.00 V battery, a 3.8 μF capacitor, and a 7.85 μF capacitor. Part (a) Find the total charge stored in the system if the capacitors are connected to the battery in series in C. Part (b) Find the energy stored in the system if the capacitors are connected to the battery in series in J. Part (c) Find the charge if the capacitors are connected to the battery in parallel in C. Part (d) Find the energy stored if the capacitors are connected to the battery in parallel in J.Two capacitors with capacitances of 1.0 and 0.5 µF, respectively, are connected inparallel. The system is connected to a 100 V battery. What charge accumulates on the 1.0µF capacitor?
- (a )A researcher connects a 3.00 V battery to the plates of a capacitor. After waiting a while, the capacitor reaches a maximum amount of 16.0 µC of stored charge. What is the value of the capacitance (in µF)? µF (b) The capacitor is disconnected from the battery, discharged, and then connected to a 10.0 V battery. Again, a long enough time is waited for the capacitor to fully charge. How much charge (in µC) is stored now? (Assume the capacitor can handle this new voltage without failing.) µCTwo capacitors, C1 = 5.92 µF and C2 = 3.30 µF, are connected in parallel, then the combination is connected to a 250 V battery. When the capacitors are charged, each one is removed from the circuit. Next, the two charged capacitors are connected to each other so that the positive plate of one capacitor is connected to the negative plate of the other capacitor. What is the resulting charge on each capacitor (in µC)? q′1= 421 µC q′2= 234 µC (b) What If? What is the resulting charge on each capacitor (in µC) if they are instead charged as a series combination and then connected positive plate to positive plate and negative plate to negative plate? q′1= q′2= solved the first two I need help with the bottom two it has to be in the format of the first two thank youFind the following. (In the figure use C1 = 37.80 µF and C2 = 31.80 µF.) (a) the equivalent capacitance of the capacitors in the figure above µF(b) the charge on each capacitor on the right 37.80 µF capacitor µC on the left 37.80 µF capacitor µC on the 31.80 µF capacitor µC on the 6.00 µF capacitor µC (c) the potential difference across each capacitor on the right 37.80 µF capacitor V on the left 37.80 µF capacitor V on the 31.80 µF capacitor V on the 6.00 µF capacitor V
- Given a 3.00 ?F capacitor, a 5.50 ?F capacitor, and a 5.00 V battery, find the charge on each capacitor if you connect them in the following ways. (a) in series across the battery 3.00 ?F capacitor 5.50 ?F capacitor (b) in parallel across the battery 3.00 ?F capacitor 5.50 ?F capacitorA parallel‑plate capacitor has square plates that have an edge length equal to 9.00×102 cm and are separated by 8.00 mm. It is connected to a battery and is charged to 12.0 V. How much energy ?electric is stored in the capacitor?Two thin plates (0.50 m x 0.50 m x 'very thin') of a parallel capacitor are located parallel to the xzplane. One of the large plates crosses the y-axis at y = 0 cm, and the other crosses at y = -1 cm. The charge on the positive plate is +30 nC, and on the negative plate, -30 nC. a) What is the voltage from the positive plate to the negative plate? b) What is the electric potential difference from the negative plate to a point in the middle of the space between the plates? c) If the electric potential at the negative plate is 100 V, what is the electric potential at the positive plate? ( d-f) The negative plate is now shifted 0.5 cm away from the positive plate. d) What is the voltage from the positive to the negative plate? ( e-f) If an electron is released from rest from very close to the negative plate, and it flies to the positive plate, e) what is the electron's change in potential energy? f) what is the electron's speed when it hits the positive plate?
- Suppose you have a 9.00 V battery, a 3.2uF capacitor, and a 7.45 uF capacitor. a) Find the total charge stored in the system if the capacitors are connected to the battery in series in C. b) Find the energy stored in the system if the capacitors are connected to the battery in series in J. c) Find the charge if the capacitors are connected to the battery in parallel in C. d) Find the energy stored if the capacitors are connected to the battery in parallel in J.A 1.00-?F capacitor is charged by being connected across a 9.0-V battery. It is then disconnected from the battery and connected across an uncharged 8.00-?F capacitor. Determine the resulting charge on each capacitor.For the network of capacitors shown, find the (a) equivalent capacitance and (b) %3D total charge when connected to a 36 V source. Note that Ci = C2 = 4.0 F and C3 = C4 = 6.0 F? %3D C1 C3 B A C2 C4