A capacitor C1 =1F is connected to a 1V battery using a wire with a total...

A capacitor C1 =1F is connected to a 1V battery using a wire with a total...

A capacitor C1 =1F is connected to a 1V battery using a wire with a total resistance R = 1Ohm. Suppose after the charging is complete the capacitor C1 is connected to another capacitor C2 = 2 F using a wire with a total resistance of R =0.3 Ohm. Now the first capacitor discharges while the second one charges. Let’s derive the differential equation describing the discharge in this 2-capacitor circuit. Let’s label the charge on the capacitor C1 as...

A capacitor C1 =1F is connected to a 1V battery using a wire with a total...

A capacitor C1 =1F is connected to a 1V battery using a wire with a total resistance R = 1Ohm. 2.1 [1pt] What is the energy of the capacitor after it is fully charged? ANSWER 2.2 [1pt] How much charge was transferred across the resistor during the charging process? ANSWER 2.3 [1pt] How much work did the battery do during the charging process? ANSWER 2.4 [1pt] Provide your comment in two sentences on your answers in 2.3 and 2.2 ANSWER

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 wire of resistance 6.4 ? is connected to a battery whose emf ? is 4.0...

A wire of resistance 6.4 ? is connected to a battery whose emf ? is 4.0 V and whose internal resistance is 0.43 ?. In 2.6 min, how much energy is (a) transferred from chemical to electrical form in the battery, (b) dissipated as thermal energy in the wire, and (c) dissipated as thermal energy in the battery?

An RC circuit consists of a resistor with a resistance 2 kOhms, a 120-V battery and...

An RC circuit consists of a resistor with a resistance 2 kOhms, a 120-V battery and two capacitors, C1 and C2, with capacitances of 20.0uF and 60uF, respectively all connected in series. Initially the capacitors are uncharged; and the switch is closed at t=0 seconds. A.)What is the total capacitance in the circuit? B.)What is the time constant of the circuit? C.)How much charge will be stored in each capacitor after a long time has elasped D.)Determine the total charges...

An air-filled parallel-plate capacitor of capacitance 12 nF has a 9 V battery connected across it....

An air-filled parallel-plate capacitor of capacitance 12 nF has a 9 V battery connected across it. a) If the battery is first disconnected and then a dielectric of K = 3 is inserted between the plates, what is the new capacitance, new charge, and new potential difference on the capacitor? b) How much work is required to remove the dielectric in part a? 2) A nickel wire of length 10 m and radius 2 mm has a potential difference of...

Consider a sheet of paper with a thickness of 0.1 mm and a dielectric constant of...

Consider a sheet of paper with a thickness of 0.1 mm and a dielectric constant of 3. Suppose we would like to make a 1 F capacitor using this sheet as a spacer between two metallic plates. Suppose we took out the paper dielectric (while keeping somehow the distance between the plates the same). 1.26 [1pt] What is the charge after the paper sheet is out completely? 1.26 ANSWER 1.27 [1pt] What is voltage across the capacitor after the paper...

Consider a sheet of paper with a thickness of 0.1 mm and a dielectric constant of...

Consider a sheet of paper with a thickness of 0.1 mm and a dielectric constant of 3. Suppose we would like to make a 1 F capacitor using this sheet as a spacer between two metallic plates. Suppose we took out the paper dielectric (while keeping somehow the distance between the plates the same). 1.26 [1pt] What is the charge after the paper sheet is out completely? 1.26 ANSWER 1.27 [1pt] What is voltage across the capacitor after the paper...

1) 2 point charges are separated by a distance of 8 cm. The left charge is...

1) 2 point charges are separated by a distance of 8 cm. The left charge is 48 mC and the right charge is -16mC. Using a full sheet of paper: draw the 2 charges separated by 8cm, centered in the sheet. (if you are missing a ruler estimate 8cm as ⅓ a paper sheet length). [6] a) Draw field lines to indicate the electric fields for this distribution. [4] b) Draw 3 equipotential surfaces, 1 each, that pass: -Through the...