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

1A) A circuit consists of a 12.0 V battery, a 100 kΩ resistor, a 20.0 μF...

1A) A circuit consists of a 12.0 V battery, a 100 kΩ resistor, a 20.0 μF capacitor in series with a switch which is initially in the open position. The capacitor is initially uncharged. Calculate the charge on the capacitor 6.00 seconds after the switch is closed. Calculate the current through the resistor 6.00 seconds after the switch is closed. 1B) A 20 μF capacitor has previously charged up to contain a total charge of Q=100 μC on it. The...

An RC circuit consists of a 3.00 V battery attached to a 50.0 uF capacitor in...

An RC circuit consists of a 3.00 V battery attached to a 50.0 uF capacitor in series with a 100.0 kilo-Ohm resistor. The circuit has a switch that is initially open (no initial charge on the capacitor). A: find the current through the circuit immediately after the switch is closed B: find the current 12 seconds after the switch is closed.

In a series RC circuit, a battery of 7.30 volts is connected to the resistor of...

In a series RC circuit, a battery of 7.30 volts is connected to the resistor of 467 ohms, the capacitor of 6.71 microfarads, and a switch. The capacitor is initially uncharged. The switch is closed at time t = 0. How long does it take for the capacitor to get fully charged? Answer to four decimal places.

An RC circuit includes a 2-k Ω resistor, a battery with emf of 12.0 V and...

An RC circuit includes a 2-k Ω resistor, a battery with emf of 12.0 V and a capacitor. At t = 0 the switch is closed and the charging of the capacitor begins. Knowing that the time constant of the circuit is measured to be 1 ms calculate: (a) the capacitance of the capacitor; (b) the time it takes for the voltage across the resistor to reach 4 V, and (c) the charge accumulated on the capacitor during this time...

7) A circuit consists of a capacitor (capacitance of 1μF) and a resistor (resistance 1000 Ω)...

7) A circuit consists of a capacitor (capacitance of 1μF) and a resistor (resistance 1000 Ω) in series, with a battery supplying a potential difference of 12.0 V. At time t=0 a switch is closed to allow current to flow in the circuit for the first time. Remember that the potential difference supplied by the battery ε is not the same as the potential across the capacitor ΔV unless a lot of time has elapsed. Also an RC circuit is...

An RC circuit consists of a resistor of 4 MΩ in series with a 5μF capacitor...

An RC circuit consists of a resistor of 4 MΩ in series with a 5μF capacitor and a battery of Ɛ= 9 V and a switch. At t = 0 s, the switch is closed and the capacitor is allowed to charge. a) Calculate the charge on the capacitor plates after 5 seconds. b) Calculate the voltage across the capacitor and the resistor after 5 seconds. c) Calculate the current flowing through the resistor after 5 seconds. d) How long...

Draw a circuit using schematic symbols with a 10.0 v battery, a switch, a R=10Ω resistor,...

Draw a circuit using schematic symbols with a 10.0 v battery, a switch, a R=10Ω resistor, and capacitors C1= 4.00 µF and C2= 8.00 µF in series. What is the maximum charge stored in each capacitor and the voltage across each capacitor?

114a-three capacitors C1,C2,C3 connected in series across DC voltage source of 15V. the corresponding values of...

114a-three capacitors C1,C2,C3 connected in series across DC voltage source of 15V. the corresponding values of the capacitances are C1=8UF,C2=1UF, C3=3UF draw the equivalent circuit and calculate the a-equivalent capacitance of the circuit b-charge of each capacitor 114b-two capacitors are connected in series giving an equivalent capacitance of 60uF, the total charge for the equivalent capacitance is 15x10-3 calculate the stored energy in the capacitor

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 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.