just answer thanks A 2.00 μF and a 8.00 μF capacitor can be connected in series...
A 2.00-µF and a 7.70-µF capacitor can be connected in series or parallel, as can a 21.0-kΩ and a 100-kΩ resistor. Calculate the four RC time constants possible from connecting the resulting capacitance and resistance in series. (a) resistors and capacitors in series s (b) resistors in series, capacitors in parallel s (c) resistors in parallel, capacitors in series s (d) capacitors and resistors in parallel s
21.66- RC Circuits A 2.50-and a 7.30-uF capacitor can be connected in series or parallel, as can a 29.0-and a 100-kΩ resistor. Calculate the four RC time constants possible from connecting the resulting capacitance and resistance in series. Both the resistors and the capacitors connected in series 0.240 s You are correct. Your receipt no. is 155-8312 The resistors connected in series and the capacitors connected in parallel 1.26 s You are correct. Your receipt no. is 155-7049Frevious Tries Both...
SHOW YOUR WORK TO GET FULL CREDIT. capacitors of capacitance 6.00μF and 8.00 μF are connected in parallel. The combination is figure. (6 POINTS) 15) Two then connected in series with a 120-V voltage source and a 14.0-uF capacitor, as shown in the 6.00 μF 14.0 μF 8.00 μF (a) what is the equivalent capacitance of this combination? (b) What is the charge on the 6.00-F capacitor? (e) What is the potential difference across the 6.00-4F capacitor?
Two capacitors connected in parallel produce an equivalent capacitance of 40.0 μF but when connected in series the equivalent capacitance is only 7.1 μF . What is the individual capacitance of each capacitor?
A 5.00 μF capacitor that is initially uncharged is connected in series with a 6.40 kΩ resistor and an emf source with E= 140 V negligible internal resistance. Just after the circuit is completed, what is the voltage drop across the capacitor? Just after the circuit is completed, what is the voltage drop across the resistor? Just after the circuit is completed, what is the charge on the capacitor? Just after the circuit is completed, what is the current through...
A 3.90 μF capacitor that is initially uncharged is connected to an emf source with E= 170 V with a series 5.50 kΩ resistor and an emf source negligible internal resistance. Just after the circuit is completed, what is the current through the resistor?
A 2.44 μF capacitor and a 6.96 μF capacitor are connected in series across a 19.0 V battery. What voltage would be required to charge a parallel combination of the same two capacitors to the same total energy?
Problem 19.46 A 0.50-μF and a 1.4-μF capacitor (C1 and C2, respectively) are connected in series to a 14-Vbattery. Part A Calculate the potential difference across each capacitor. (in volts) Part B Calculate the charge on each capacitor. (in Coulombs) Part C Calculate the potential difference across each capacitor assuming the two capacitors are in parallel. (in Volts) Part D Calculate the charge on each capacitor assuming the two capacitors are in parallel. (in Coulombs) Thanks for the help! If...
(a) A capacitor of capacitance 220 μF is connected in series with a 150 kΩ resistor, a switch and an ammeter. A d.c. power supply of negligible internal resistance is connected to the circuit as shown below 1 50 kΩ 220HF A stopclock is started and after 10 seconds the switch S is closed Ammeter readings are noted at regular intervals until a time of 80s is shown on the stopclock. The graph below shows how the current in the...
A capacitor of capacitance C= 2.5 μF is initially uncharged. It is connected in series with a switch of negligible resistance, a resistor of resistance R= 14.5 kΩ, and a battery which provides a potential difference of VB = 160 V.Part (a) Immediately after the switch is closed, what is the voltage drop Vc, in volt across the capacitor?Part (b) Immediately after the switch is closed, what is the voltage drop VR, in volt: across the resistor?Part (c) Immediately after...