ZuoTi.Pro
Question

A 14-µF capacitor and a capacitor of unknown capacitance are both charged to 3.25 kV. After...

A 14-µF capacitor and a capacitor of unknown capacitance are both charged to 3.25 kV. After charging, the two capacitors are disconnected from the voltage source. The capacitors are then connected to each other--positive plate to negative plate and negative plate to positive plate. The final voltage across the terminals of the 14-µF capacitor is 1.00 kV.

a)What is the capacitance of the second capacitor?

b)How much energy is dissipated when the connection was made?

science   Advanced-Physics   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

Voltage ttlid 3,25 kV 12 tt中 that othe- Catta An In anden to On 2 CINow from the above process we knew that the Value of other capacitor is 5 uF.

(b) For energy dissipation. We just have to Subtract the final energy from initial energy. \Delta E = \frac{1}{2}\left ( C_{1}-C_{2} \right )V^{2} - \frac{1}{2}\left ( C_{1}-C_{2} \right )V_{f}^{2} = 38.25 Joules

0 1
Add a comment
Know the answer?
Add Answer to:
A 14-µF capacitor and a capacitor of unknown capacitance are both charged to 3.25 kV. After...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • Two capacitors, one that has a capacitance of 4 µF and one that has a capacitance...

    Two capacitors, one that has a capacitance of 4 µF and one that has a capacitance of 12 µF are first discharged and then are connected in series. The series combination is then connected across the terminals of a 14-V battery. Next, they are carefully disconnected so that they are not discharged and they are then reconnected to each other--positive plate to positive plate and negative plate to negative plate. (a) Find the potential difference across each capacitor after they...

  • A capacitor of capacitance C1 = 5µF is charged to a potential difference of 100 V....

    A capacitor of capacitance C1 = 5µF is charged to a potential difference of 100 V. The terminals of the charged capacitorare then disconnected from the voltage source and connected to the terminals of an uncharged 2 µF capacitor (C2). (a) Compute the original charge on capacitor C1. (b) Compute the final potential difference across the two-capacitor system. (c) Compute the final energy of the system. (d) Compute the decrease in energy when the capacitors are connected.

  • A 0.6 pF capacitor is charged to 27 V. After charging, the capacitor is disconnected from...

    A 0.6 pF capacitor is charged to 27 V. After charging, the capacitor is disconnected from the voltage source and is connected to another uncharged capacitor. The final voltage is 9 V. (a) What is the capacitance of the other capacitor? x PF Enter a number. (b) How much energy was lost when the connection was made? e non se conserva una

  • Suppose after charging a 3.1 µF capacitor to 14 V, you connect it to another already...

    Suppose after charging a 3.1 µF capacitor to 14 V, you connect it to another already charged capacitor of 6.2 µF and 5 V. What voltage will your voltmeter read across those two capacitors connected in parallel?

  • A parallel-plate vacuum capacitor is connected to a batteryand charged until the stored electric energy is...

    A parallel-plate vacuum capacitor is connected to a battery and charged until the stored electric energy is U. The battery is removed, and then a dielectric material with dielectric constant K is inserted into the capacitor, filling the space between the plates. Finally, the capacitor is fully discharged through a resistor (which is connected across the capacitor terminals).A.)Find Ur, the the energy dissipated in the resistor.Express your answer in terms of U and other given quantities.B.) Consider the same situation...

  • A capacitor of known value "C" is charged to voltage "V,". The charged capacitor is then attached to an unknown capacit...

    A capacitor of known value "C" is charged to voltage "V,". The charged capacitor is then attached to an unknown capacitor "C". The voltage across the "parallel" connected capacitors is measured to be V. 2. Show the unknown capacitance is given by ( VV l's" m - Vm

  • Capacitors C1=10μF and C2=20μF are each charged to 14 V , then disconnected from the battery...

    Capacitors C1=10μF and C2=20μF are each charged to 14 V , then disconnected from the battery without changing the charge on the capacitor plates. The two capacitors are then connected in parallel, with the positive plate of C1connected to the negative plate of C2 and vice versa. (a) Afterward, what is the charge on each capacitor? (b) What is the potential difference across each capacitor?

  • Two identical parallel-plate capacitors, each with capacitance 13.0 μF, are charged to potential difference 47.5 V...

    Two identical parallel-plate capacitors, each with capacitance 13.0 μF, are charged to potential difference 47.5 V and then disconnected from the battery. They are then connected to each other in parallel with plates of like sign connected. Finally, the plate separation in one of the capacitors is doubled. (a) Find the total energy of the system of two capacitors before the plate separation is doubled. J (b) Find the potential difference across each capacitor after the plate separation is doubled....

  • A 2.50- mu F capacitor is charged to 747 V and 6.80-mu F capacitor is charged...

    A 2.50- mu F capacitor is charged to 747 V and 6.80-mu F capacitor is charged to 564 V capacitors are then disconnected from their batteries. Next the positive plates are connected to each other and the negative plates are connected to each other What will to the potential difference across each and the charge on each? Determine the potential difference across the first capacitor. Determine potential difference across the second capacitor.

  • Three capacitors having capacitances of 8.0 µF, 8.6 µF, and 4.1 µF are connected in series...

    Three capacitors having capacitances of 8.0 µF, 8.6 µF, and 4.1 µF are connected in series across a 36-V potential difference. (A) What is the charge on the 4.1μF capacitor? ( Express your answer using two significant figures ) i tried to find it and my answers was : ( 7.5*10^2 ) , ( 745 ) , ( 17 ) , ( 74 ) , ( 74.2 ) all are wrong :( (B) What is the total energy stored in...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT