1 / 32

PHY 2049: Physics II

PHY 2049: Physics II. Hopefully all homework problems have been solved. Please see me immediately after the class if there is still an issue. PHY 2049: Physics II. About bicycle riding: If some one shows you a trick, or you read about it in a brochure/book, it means that,

farren
Download Presentation

PHY 2049: Physics II

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. PHY 2049: Physics II • Hopefully all homework problems have been solved. Please see me immediately after the class if there is still an issue.

  2. PHY 2049: Physics II • About bicycle riding: If some one shows you a trick, or you read about it in a brochure/book, it means that, • It is possible to do that trick • The person who showed you, can do the trick. It does not mean that you can do the trick. • Try it a lot of times and you can too.

  3. A uniform electric field, with a magnitude of 600 N/C, is directed parallel to the positive x-axis. If the potential at x = 3.0 m is 1 000 V, what is the potential at x = 1.0 m? a. 400 V b. 1 600 V c. 2 200 V d. 2 500 V PHY 2049: Physics II What have we learned • Coulomb’s law, electric field, Gauss’ theorem and electric potential. • Energy conservation applies. U F V E

  4. HITT • A uniform electric field, with a magnitude of 600 N/C, is directed parallel to the positive x-axis. If the potential at x = 3.0 m is 1000 V, what is the potential at x = 1.0 m? a. 400 V b. 1 600 V c. 2 200 V d. 2 500 V

  5. PHY 2049: Physics II What is the potential at the center point (in units of kq/d) ? a) -7 (b) -5 (c) -7 (d) -7

  6. PHY 2049: Physics II Calculate the Electric Field at P Calculate the el. potential at P

  7. PHY 2049: Physics II • Point charge • Distribution of charges • Line charge at an edge • Disc on an axis through the center

  8. PHY 2049: Class Quiz If 500 J of work are required to carry a charged particle between two points with a potential difference of 20V, the magnitude of the charge on the particle is: A. 0.040C B. 12.5C C. 20C D. cannot be computed unless the path is given E. none of these

  9. Some old business: What is the electric field of a shell of a uniform spherical charge distribution? What is the potential for each of the above?

  10. PHY 2049: Physics II • Some old business The potential of a uniform spherical charge. • Calculate electric field, integrate it to get the potential E r R V V

  11. Two particles with charges Q and -Q are fixed at the vertices of an equilateral triangle with sides of length a. The work required to move a particle with charge q from the other vertex to the center of the line joining the fixed particles is: A. 0 B. kQq/a C. kQq/a2 D. 2kQq/a E. 1.4kQq/a

  12. PHY 2049: Physics II • a= 39 cm • q1 = 3.4pC • q2 = 6 pC • E at the center? • What is the potential at the center?

  13. PHY 2049: Physics II • Capacitors: A device to hold charge. • It is held by Coulomb force between the charges. +q and –q on two separate places. • V : potential difference: q= CV • C: capacitance units farad.

  14. PHY 2049: Physics II

  15. PHY 2049: Physics II • Tutoring Center is open in room NPB 1215, M-F 12:00AM -4:00PM. It is free. • Hopefully all homework problems have been solved. Please see me immediately after the class if there is still an issue. • Exam I is on Friday May 30, 2008. It will be here in class during class time.

  16. PHY 2049: Physics II An outline • Capacitors, plate, coaxial, spherical.. • Energy, Dielectric strength, Dielectric constant. • Netweorks: Parallel and Series configuration.

  17. PHY 2049: Physics II

  18. Potential near a sheet charge

  19. Potential near a sheet charge

  20. PHY 2049: Physics II

  21. PHY 2049: Physics II

  22. PHY 2049: Physics II

  23. PHY 2049: Physics II • What is the capacitance of various familiar balls. C = 4πεoR = 10-10 R(m) F • Basketball-it is an insulator • Van de Graff top • Earth (radius 6.4 X 106 m) • CE = 0.71 mF

  24. PHY 2049: Physics II • Energy stored in a capacitor U = ½ CV2 = Q2/2C = ½ QV • Dielectric Strength (oops I burned it/broke it) • Capacitor Enhancement by inserting a dielectric: • Replace εo by κεo

  25. PHY 2049: Physics II

  26. PHY 2049: Physics II

  27. PHY 2049: Physics II

  28. PHY 2049: Physics II • Charging and discharging of capacitors. • http://edugen.wiley.com/edugen/instructor/main.uni

  29. PHY 2049: Physics II 25.20

  30. PHY 2049: Physics II Switch closed on left, capacitor C1 is being charged We have c2 = c3 = 20 μF in parallel. The equivalent capacitor is then Ceq = 40 μF. When the switch is thrown to right, the battery is disconnected, the charge is shared between the capacitors C1 and Ceq = 40. What is the charge on old C2 and C3? Is your answer 40 μC? What is your answer if C2 = 10 μF and C3 = 30 μF?

  31. PHY 2049: Physics II • All about capacitors • Capacitance units Farad • C = 4 π κεo R • Energy stored dielectrics and strength • Parallel and series elements in a network

  32. PHY 2049: Physics II

More Related