Example 23.1: A 60.0 pF and a 30.0 pF capacitor are connected in series with a 12 Volt battery. Find: a) the total capacitance; b) the charge on each capacitor (same for both).
Example 23.1: A 60.0 pF and a 30.0 pF capacitor are connected in series with a...
Example 23.1: A 60.0 pF and a 30.0 pF capacitor are connected in series with a 12 Volt battery. Find: a) the total capacitance; b) the charge on each capacitor (same for both). Example 23.2: A 3.42 nF capacitor is connected to a 36.0 ohm resistor, a 6 volt battery and an open switch. A) Find the time constant for the RC circuit. B) What is the initial current through the battery when the switch is closed? C) After a...
45) Two resistors with resistances of 5.02 and 9.00 are connected in parallel. A 4.0-12 resistor is then connected in series with this parallel combination. An ideal 6.0-V battery is then connected across the series-parallel combination. What is the current through (a) the 4.0-22 resistor and (b) the 5.0-92 resistor? 58) If V = 40 V and the battery is ideal, what is the potential difference across R1 in the figure? R; = 102 Rz=2022 ? R =3 2017 w...
A 217 pF capacitor is connected in series with an unknown capacitor, and as a series combination they are connected to a battery with an emf of 20.3 V. If the 217 pF capacitor stores 117 pC of charge on its plates, what is the unknown capacitance?
A capacitor of capacitance 30.0 pF is immersed in silicone oil (Κ=2.20). While the capacitor is connected to a 23-volt battery, what will be the amount of energy stored in the capacitor?
A series RC circuit has a 12 volt battery connected in series to a resistor with resistance 1 ?? and a capacitor wi capacitor. The switch is thrown at t-0 seconds. a) Write the differential equation for the circuit. b) Solve the equation for the charge q() and the current io). 8. th capacitance 1 pF. There is an initial charge of 10 nC on the
PHYSICS II: 6) A 12.00 nF and a 6.00 nF capacitor are connected in series with a b Volt battery. Find: a) the equivalent capacitance; b) the charge on each capacitor (same for both) 7) Find the magnetic field (including direction) 3.0 cm from a long wire carrying 20.0 A as shown below for point P. 8) Find the force (magnitude and direction) on an electron moving to the right (horizontally) at 240,000 m/s where there is an upward magnetic...
Question 5 Part A: Part B: A 4.26-pF is connected in series with an 5.56-pF capacitor and a 400-V potential difference is applied across the pair. What is the charge on each capacitor? Select the correct answer CHECK ANSWER 2 of 3 attempts used LAST ATTEMPT O 1.12nc O 1.33n O 1.35nC Answer 0.719nC O 0.965nG A capacitor with a very large capacitance is connected in series with another capacitor with a very small capacitance. What is the equivalent capacitance...
A 3.00 pF capacitor is connected in series with a 2.00 pF capacitor and a 630 V potential difference is applied across the pair. (a) What is the charge on each capacitor (in nC)? 3.00 pF capacitor 1.42 2.00 pF capacitor 1.08 xnc xnc (b) What is the voltage across each capacitor (in V)? 3.00 pF capacitor 2.00 pF capacitor V V
16. A 3.0 uF and a 5.0 uF capacitor are connected in series with a 12 V battery. Find the equivalent capacitance. Find the charge on each capacitor. Find the potential drop (or voltage) across each capacitor.
A capacitor of 30.0 ?F and a resistor of 120 Ω are quickly connected in series to a battery of 6.00 V. What is the charge ? on the capacitor 0.00200 s after the connection is made? Q =