Consider the circuit shown below where four capacitors, C1=1.3  μF ,  C2=3.7  μF , C3=2.5  μF and C4=1.2  μF are connected...

I have four capacitors with capacitances C1, C2, C3, and C4 connected in series. To save...

I have four capacitors with capacitances C1, C2, C3, and C4 connected in series. To save space I replace them with a single capacitor that has the same equivalent capacitance C as the four capacitors together. Which of the following is true? A. C>C1 B. C<C2 C. C=C3 D. Not enough information to answer. 2. The role of a resistor in the circuit is to A. Convert kinetic energy of the electrons to thermal energy B. Convert thermal energy to...

Two capacitors, one a 4.0 μF capacitor, C1, and the other a 7.0 μF capacitor, C2,...

Two capacitors, one a 4.0 μF capacitor, C1, and the other a 7.0 μF capacitor, C2, are connected in series. If a 90.0 V voltage source is applied to the capacitors, as shown in the figure, find the voltage drop across the 4.0 μF capacitor.​ 36 V 54 V 9.0 V 60 V​

A battery is connected purely in parallel to three capacitors of C1 = 6 micro-farads, C2...

A battery is connected purely in parallel to three capacitors of C1 = 6 micro-farads, C2 = 9 micro-farads, and C3 = 11 micro-farads. Then, one additional capacitor of 8 micro-farads is added in parallel to the other three capacitors and due to this, the total stored energy of all the capacitors increases by 196 micro-joules (it is 196 micro-joules larger with four capacitors compared to with three capacitors). Then, the same four capacitors are connected in SERIES to the...

Capacitor C1 = 10.0 micro F is connected in series to parallel combination of capacitors C2=7.0...

Capacitor C1 = 10.0 micro F is connected in series to parallel combination of capacitors C2=7.0 microF and C3=8.0 microF. This circuit is connected to a battery delivering V=15.0 V. Find charge stored in capacitor C2 in mircoC.

Consider the circuit shown in the figure below, where C1 = 8.00 µF, C2 = 7.00...

Consider the circuit shown in the figure below, where C1 = 8.00 µF, C2 = 7.00 µF, and ?V = 22.0 V. Capacitor C1 is first charged by closing switch S1. Switch S1 is then opened, and the charged capacitor is connected to the uncharged capacitor by closing S2. (a) Calculate the initial charge acquired by C1. µC (b) Calculate the final charge on each capacitor. q1 = µC q2 = µC

A 0.50-μF and a 1.4-μF capacitor (C1 and C2, respectively) are connected in series to a...

A 0.50-μF and a 1.4-μF capacitor (C1 and C2, respectively) are connected in series to a 14-V battery. a) Calculate the potential difference across each capacitor. Express your answers using two significant figures separated by a comma. V1 V2 = b) Calculate the charge on each capacitor. Express your answers using two significant figures separated by a comma. Q1 Q2 = c) Calculate the potential difference across each capacitor assuming the two capacitors are in parallel. Express your answers using...

For the system of capacitors shown in the figure below, find the following. (Let C1 =...

For the system of capacitors shown in the figure below, find the following. (Let C1 = 9.00 µF and C2 = 1.00 µF.) A circuit consists of a 90.0 V battery and four capacitors. The wire begins at the positive terminal of the battery and splits into two parallel branches before reconnecting and then ending at the negative terminal of the battery. Each branch contains two capacitors in series. One branch contains a capacitor labeled C1 followed by a 6.00...

Consider the following. (Let C1 = 14.40 µF and C2 = 8.40 µF.) A rectangular circuit...

Consider the following. (Let C1 = 14.40 µF and C2 = 8.40 µF.) A rectangular circuit contains a battery and four capacitors. The bottom side has a 9.00 V battery with the positive terminal on the left. The left and right sides of the circuit each contain a capacitor labeled C1. The top side splits into two parallel horizontal branches, which recombine before reaching the top right corner. There is a 6.00 µF capacitor on the upper branch and a...

Consider a simple circuit with two resistors connected in parallel. R1 = 30.0 Ohm, R2 =...

Consider a simple circuit with two resistors connected in parallel. R1 = 30.0 Ohm, R2 = 10.0 Ohm, and a 12 V battery Calculate the following values to one decimal places (enter just the number) The equivalent resistance  Ohms The voltage across resistor R1  V The voltage across resistor R2  V The current through resistor R1  A The current through resistor R2  A Consider a simple circuit with two resistors connected in series. R1 = 1.0 Ohm, R2 = 7.0 Ohm, and a 12 V...

Four capacitors are connected as shown in the figure below. (Let C = 20.0 µF.) A...

Four capacitors are connected as shown in the figure below. (Let C = 20.0 µF.) A circuit consists of four capacitors. It begins at point a before the wire splits in two directions. On the upper split, there is a capacitor C followed by a 3.00 µF capacitor. On the lower split, there is a 6.00 µF capacitor. The two splits reconnect and are followed by a 20.0 µF capacitor, which is then followed by point b. (a) Find the...