A 28.2×10-6 F capacitor C1 is charged to a potential difference of 87.63 V. The capacitor...

A capacitor C1 is connected to a battery and charged to a voltage 180.0 V. It...

A capacitor C1 is connected to a battery and charged to a voltage 180.0 V. It is then disconnected from the battery and connected in parrallel to another capacitor C2 which is initially uncharged. After connection, the potential across C1 drops to 127.5 V. If C1= 30.0 µF find the capacitance of C2.

A C1= 5.0 µF capacitor is charged by a 12.0-V battery and then is disconnected from...

A C1= 5.0 µF capacitor is charged by a 12.0-V battery and then is disconnected from the battery. When this capacitor (C1) is then connected to a second (initially uncharged) capacitor, C2, the voltage on the first drops to 5.0 V. What is the value of C2?

An initially uncharged air-filled capacitor is connected to a 4.59 V charging source. As a result,...

An initially uncharged air-filled capacitor is connected to a 4.59 V charging source. As a result, the capacitor acquires 9.05×10−5 C of charge. Then, while the capacitor remains connected to the charging source, a sheet of dielectric material is inserted between its plates, completely filling the space. The dielectric constant ? of this substance is 7.37. Find the voltage ? across the capacitor and the charge ?f stored by it after the dielectric is inserted and the circuit has returned...

An initially uncharged air-filled capacitor is connected to a 2.01 V charging source. As a result,...

An initially uncharged air-filled capacitor is connected to a 2.01 V charging source. As a result, the capacitor acquires 5.49×10−5 C of charge. Then, while the capacitor remains connected to the charging source, a sheet of dielectric material is inserted between its plates, completely filling the space. The dielectric constant ? of this substance is 7.11. Find the voltage ? across the capacitor and the charge ?f stored by it after the dielectric is inserted and the circuit has returned...

An initially uncharged air-filled capacitor is connected to a 5.15 V charging source. As a result,...

An initially uncharged air-filled capacitor is connected to a 5.15 V charging source. As a result, the capacitor acquires 7.19×10^−5C of charge. Then, while the capacitor remains connected to the charging source, a sheet of dielectric material is inserted between its plates, completely filling the space. The dielectric constant ? of this substance is 7.39. Find the voltage ? across the capacitor and the charge ?f stored by it after the dielectric is inserted and the circuit has returned to...

A 2.50 F capacitor is charged to 857 V and a 6.80F capacitor is charged to...

A 2.50 F capacitor is charged to 857 V and a 6.80F capacitor is charged to 652 V. These capacitors are then disconnected from their batteries. Next the positive plates are connected to each other and the negative plates are connected to each other. What will be the potential difference across each and the charge on each? [Hint: charge is conserved.]

A 2.50-μF capacitor is charged to 754 V and a 6.80-μF capacitor is charged to 574...

A 2.50-μF capacitor is charged to 754 V and a 6.80-μF capacitor is charged to 574 V . These capacitors are then disconnected from their batteries. Next the positive plates are connected to each other and the negative plates are connected to each other. What will be the potential difference across each and the charge on each? [Hint: Charge is conserved.] Determine the potential difference across the first capacitor. Determine the potential difference across the second capacitor. Determine the charge...

An initially uncharged air-filled capacitor is connected to a 4.65 V charging source. As a result,...

An initially uncharged air-filled capacitor is connected to a 4.65 V charging source. As a result, 3.35 × 10 − 5 C of charge is transferred from one of the capacitor's plates to the other. Then, while the capacitor remains connected to the charging source, a sheet of dielectric material is inserted between its plates, completely filling the space. The dielectric constant κ of this substance is 7.05 . Find the voltage V across the capacitor and the charge Q...

A capacitance C1 = 14.6 μF is connected in series with a capacitance C2 = 5.8...

A capacitance C1 = 14.6 μF is connected in series with a capacitance C2 = 5.8 μF, and a potential difference of 150 V is applied across the pair. a. Calculate the equivalent capacitance. b. What is the charge on C2? c. What is the charge on C1? d. What is the potential difference across C2? e. What is the potential difference across C1? (c25p72) Repeat for the same two capacitors but with them now connected in parallel. f. Calculate...

A 5.0-?F capacitor and a 7.0-?F capacitor are connected in series across an 8.0-V potential source....

A 5.0-?F capacitor and a 7.0-?F capacitor are connected in series across an 8.0-V potential source. What is the potential difference across the 5.0-?F capacitor? A) 4.7 V B) 0 V C) 2.7 V D) 8.0 V E) 3.6V