What total capacitances can you make by connecting a 4.12 µF and 7.72 µF capacitor together?...
What total capacitances can you make by connecting a 4.12 µF and 7.72 µF capacitor together?
| series | µF |
| parallel | µF |
Homework Answers
When these capacitor are connected in series then
When connected in parallel
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What total capacitances can you make by connecting a 4.12 µF and 7.72 µF capacitor together?...
A 2.00-µF and a 7.70-µF capacitor can be connected in series or parallel, as can a...
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
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A 2.02-µF and a 4.24-µF capacitor are connected to a 55.8-V battery. What is the total...
A 2.02-µF and a 4.24-µF capacitor are connected to a 55.8-V battery. What is the total charge supplied to the capacitors when they are wired in the following ways? (a) in parallel with each other and (b) in series with each other
A student is working with a 2.75-µF capacitor, a 5.25-µF capacitor, and a 6.20-V battery. What...
A student is working with a 2.75-µF capacitor, a 5.25-µF capacitor, and a 6.20-V battery. What is the the charge (in µC) on each capacitor if the student connects the capacitors in the following ways. (a) in series across the battery 2.75-µF capacitor ____ µC 5.25-µF capacitor ____ µC (b) in parallel across the battery 2.75-µF capacitor ____ µC 5.25-µF capacitor ____ µC
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Two capacitors with capacitances of 12 and 18.1 µF, respectively, are connected in parallel. The system is connected to a 26-V battery. What charge accumulates on the 18.1-µF capacitor? Give your answer in µC.
Given a 2.75 µF capacitor, a 6.00 µF capacitor, and a 9.00 V battery, find the...
Given a 2.75 µF capacitor, a 6.00 µF capacitor, and a 9.00 V battery, find the charge on each capacitor if you connect them in the following ways.(a) in series across the batteryµC(b) in parallel across the battery2.75 µF capacitor µC6.00 µF capacitor µC
Question 16 (1 point) Capacitor 8: How were you supposed to discharge the capacitors before connecting...
Question 16 (1 point) Capacitor 8: How were you supposed to discharge the capacitors before connecting the power supply to the circuit with capacitances in parallel? By connecting all the capacitors directly to the voltmeter By unplugging them, then reconnecting them one by one By connecting together the two ends of the capacitor with another wire, one capacitor at a time. By using the black box
(10%) Problem 10: Suppose you connect a 7.25 μF and a 8.75 μF capacitor together 50%...
(10%) Problem 10: Suppose you connect a 7.25 μF and a 8.75 μF capacitor together 50% Part (a) What total capacitance will you make by connecting them in series in F? cosO cotanOasin acos( atanO acotan) sinh0 cosh0 tah cotanh0 Degrees Radians sinO tan Submit Hint I give up! Hints: 0% deduction per hint. Hints remaining: 3 Feedback: 0% deduction per feedback. 50% Part (b) What total capacitance will you make by connecting them in parallel in F?
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Suppose after charging a 3.1 µF capacitor to 14 V, you connect it to another already...
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Question 16 (1 point) Capacitor 8: How were you supposed to discharge the capacitors before connecting the power supply to the circuit with capacitances in parallel? By connecting all the capacitors directly to the voltmeter By unplugging them, then reconnecting them one by one By connecting together the two ends of the capacitor with another wire, one capacitor at a time. By using the black box
(10%) Problem 10: Suppose you connect a 7.25 μF and a 8.75 μF capacitor together 50% Part (a) What total capacitance will you make by connecting them in series in F? cosO cotanOasin acos( atanO acotan) sinh0 cosh0 tah cotanh0 Degrees Radians sinO tan Submit Hint I give up! Hints: 0% deduction per hint. Hints remaining: 3 Feedback: 0% deduction per feedback. 50% Part (b) What total capacitance will you make by connecting them in parallel in F?
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