1 / 15

Electric Potential Introduction

Electric Potential Introduction. 4.1. Huh?. Exam Date – Wed 2/9 Topics Covered Listed on Class Website Sample Exam from a few years back is also on the web. Today Start Unit 5: Electric Potential (Energy Methods) Wednesday Monday More of the same Friday: Surprise – Quiz #2 (for real!).

baby
Download Presentation

Electric Potential Introduction

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. Electric Potential Introduction 4.1

  2. Huh? • Exam Date – Wed 2/9 • Topics Covered Listed on Class Website • Sample Exam from a few years back is also on the web. • Today • Start Unit 5: Electric Potential (Energy Methods) • Wednesday Monday • More of the same • Friday: Surprise – Quiz #2 (for real!)

  3. Yup • Spring Break is just a few weeks away – (5ish)

  4. Easy Click The figure shows the electric field lines in the vicinity of two point charges. Which one of the following statements concerning this situation is true? A) q1 is negative and q2 is positive. B) The magnitude of the ratio (q2/ q1) is less than one. C) Both q1and q2 have the same sign of charge. D) The magnitude of the electric field is the same everywhere. E) The electric field is strongest midway between the charges.

  5. A cubical Gaussian surface is placed in a uniform electric field as shown in the figure. The length of each edge of the cube is 1.0 m. The uniform electric field has a magnitude of 5.0 × 108 N/C and passes through the left and right sides of the cube perpendicular to the surface. What is the total electric flux leaving the cubical Gaussian surface? A) 5.0 × 108 m2/C B) 3.0 × 109 N×m2/C C) 2.5 × 106 N×m2/C D) 1.5 × 107 N×m2/C E) zero N×m2/C

  6. What is the electric flux passing leaving a Gaussian surface that surrounds a +0.075 C point charge? A) 8.5 × 109N×m2/C B) 6.8 × 108N×m2/C C) 1.3 × 107N×m2/C D) 4.9 × 106N×m2/C E) 7.2 × 105N×m2/C e0= 8.85×10−12SI Units

  7. A solid, conducting sphere of radius a carries an excess charge of +6 µC. This sphere is located at the center of a hollow, conducting sphere with an inner radius of b and an outer radius of c as shown. The hollow sphere also carries a total excess charge of +6 µC. Determine the excess charge on the outer surface of the outer sphere (a distance c from the center of the system). A) zero coulombs B) –6 mC C) +6 mC D) +12 mC E) –12 mC

  8. Recall What is the definition of work?????

  9. 3 Volunteers Please Mrs. Field + Mr. External

  10. Mrs. Field Mr. External

  11. What did we do? E That was HARD WORK Mr. External + charge Constant Speed Sure Was Mrs. Field Mrs. Fields Mr. External Each does the negative amount of work that the other one does.

  12. Remember: The net work done by a conservative (field) force on a particle moving around a closed path is ZERO!

  13. IMPORTANT • The work necessary for an external agent to move a charge from an initial point to a final point is INDEPENDENT OF THE PATH CHOSEN!

  14. A few things to remember… • A conservative force is NOT a Republican. • An External Agent is NOT 007.

  15. Start WORKING on Unit 5 Please

More Related