Presentation is loading. Please wait.

Presentation is loading. Please wait.

Announcements Reminders: No lectures next week: Feb 15 th and Feb 17 th Quiz II: March 3rd, Ch 25,26, most of 27. {tentative}

Published byJonas Summers Modified over 8 years ago

Similar presentations

Presentation on theme: "Announcements Reminders: No lectures next week: Feb 15 th and Feb 17 th Quiz II: March 3rd, Ch 25,26, most of 27. {tentative}"— Presentation transcript:

1

2 Announcements Reminders: No lectures next week: Feb 15 th and Feb 17 th Quiz II: March 3rd, Ch 25,26, most of 27. {tentative}

3 Exam Grades Median: 85.5 % {high B+} Mean: 82.8% {low B+} Stdev: 13.2% Questions: email or ask in office hrs

4 Exam Histogram

5 Exam Comments Most Common issues: Field does NOT depend on the magnitude of the test charge, but does on the distance. The force from a field on a charge depends on the sign of the charge. Not all oscillatory motion is simple harmonic motion! On each exam, there should be: Score, Exam Grade Overall Grade The overall grade is what you would have now. If there are two grades this indicates that you are at an interface.

6 Capacitor Two conductors carrying charges of equal magnitude but opposite sign form a capacitor. +Q -Q A parallel plate capacitor is a particularly common type: +Q-Q Capacitors have a voltage across them

7 Capacitor: Field Lines +q -q Perfect parallel plate capacitors have a uniform field. And of course a potential difference

8 Capacitors and Charge Capacitors store charge Capacitance is measure of how well it stores charge Capacitance is a constant for a given capacitor. Farad (F) is C/V, the unit of capacitance Typical capacitances are in  F or pF ranges.

9 Capacitors and Charge Capacitance is a constant for a given capacitor. The voltage (i.e. potential difference) used is this equation is positive. C depends only on the geometry of the capacitor! Note: the material doesn’t matter (except in between the plates} If I change the voltage (for a given geometry), I change the charge. If the charge changes, than the voltage must have changed

10 Finding Capacitance a b +Q+Q-Q-Q So we need to find the field the find the voltage (use Gauss law, withthe sphere as the gaussian surface )

11 Finding Capacitance a b +Q+Q-Q-Q

12 Finding Capacitance: isolated sphere a b +Q+Q-Q-Q a b +Q+Q-Q-Q The isolated sphere is the limit as b-> infinity of the concentric spheres

13 A Parallel Plate Capacitor d area A Dielectric constant 

14 Circuits: First glance wire (conductor) capacitor switch battery +– We will learn how to combine these elements and others as the class progresses. +– This is what is right here!

15 Batteries An ideal battery creates a voltage difference between the two sides +– E A battery can be used to charge a capacitor, and maintain a constant voltage.

16 Combining Capacitors wire (conductor) capacitor switch battery +– In Series: C1C1 C2C2 C3C3 C1C1 C2C2 C3C3 In Parallel: Same Voltages Voltages are the same across each capacitor Charges are the same on each capacitor

17 Each of the Capacitors above has a capacitance of 12  F. What is the combined capacitance of the whole system? A)12  FD) 36  F B)6  FC) 4  F Combining Capacitors

18 For complex problems, capacitors may be combined successively in pairs. 4  F 8  F 6  F 12  F6  F

19 Each of the Capacitors above has a capacitance of 12 pF. What is the combined capacitance of the whole system? A)12 pFC) 8 pF B)4 pFD) 20 pF 12 24 8

Download ppt "Announcements Reminders: No lectures next week: Feb 15 th and Feb 17 th Quiz II: March 3rd, Ch 25,26, most of 27. {tentative}"

Similar presentations

1/29/07184 Lecture 121 PHY 184 Spring 2007 Lecture 12 Title: Capacitor calculations.

1/29/07184 Lecture 121 PHY 184 Spring 2007 Lecture 12 Title: Capacitor calculations.
Physics 121: Electricity & Magnetism – Lecture 6 Capacitance

Physics 121: Electricity & Magnetism – Lecture 6 Capacitance
Capacitors and Dielectrics Capacitors Conductors are commonly used as places to store charge You can’t just “create” some positive charge somewhere, you.

Capacitors and Dielectrics Capacitors Conductors are commonly used as places to store charge You can’t just “create” some positive charge somewhere, you.
Lecture 4 Capacitance and Capacitors Chapter 16.6  16.10 Outline Definition of Capacitance Simple Capacitors Combinations of Capacitors Capacitors with.

Lecture 4 Capacitance and Capacitors Chapter 16.6  Outline Definition of Capacitance Simple Capacitors Combinations of Capacitors Capacitors with.
Capacitors A device storing electrical energy. Capacitor A potential across connected plates causes charge migration until equilibrium VV – + –q+q Charge.

Capacitors A device storing electrical energy. Capacitor A potential across connected plates causes charge migration until equilibrium VV – + –q+q Charge.
Chapter 26:Capacitance and Dielectrics. Capacitors A capacitor is made up of 2 conductors carrying charges of equal magnitude and opposite sign. The Capacitance.

Chapter 26:Capacitance and Dielectrics. Capacitors A capacitor is made up of 2 conductors carrying charges of equal magnitude and opposite sign. The Capacitance.
1 Capacitance and Dielectrics Chapter 27 Physics chapter 27.

1 Capacitance and Dielectrics Chapter 27 Physics chapter 27.
Physics for Scientists and Engineers II, Summer Semester 2009 Lecture 6: June 1 st 2009 Physics for Scientists and Engineers II.

Physics for Scientists and Engineers II, Summer Semester 2009 Lecture 6: June 1 st 2009 Physics for Scientists and Engineers II.
Physics 1402: Lecture 7 Today’s Agenda Announcements: –Lectures posted on: www.phys.uconn.edu/~rcote/ www.phys.uconn.edu/~rcote/ –HW assignments, solutions.

Physics 1402: Lecture 7 Today’s Agenda Announcements: –Lectures posted on: –HW assignments, solutions.
Physics 2113 Lecture: 16 MON 23 FEB

Physics 2113 Lecture: 16 MON 23 FEB
Capacitance and Dielectrics

Capacitance and Dielectrics
Chapter 26 Capacitance and Dielectrics. Concept Question 1.

Chapter 26 Capacitance and Dielectrics. Concept Question 1.
1/25/07184 Lecture 111 PHY 184 Spring 2007 Lecture 11 Title: Capacitors.

1/25/07184 Lecture 111 PHY 184 Spring 2007 Lecture 11 Title: Capacitors.
Conductors are commonly used as places to store charge You can’t just “create” some positive charge somewhere, you have to have corresponding negative.

Conductors are commonly used as places to store charge You can’t just “create” some positive charge somewhere, you have to have corresponding negative.
1 Lecture 5 Capacitance Ch. 25 Cartoon - Capacitance definition and examples. Opening Demo - Discharge a capacitor Warm-up problem Physlet Topics Capacitance.

1 Lecture 5 Capacitance Ch. 25 Cartoon - Capacitance definition and examples. Opening Demo - Discharge a capacitor Warm-up problem Physlet Topics Capacitance.
1 TOPIC 5 Capacitors and Dielectrics. 2 Capacitors are a means of storing electric charge (and electric energy) It takes energy to bring charge together.

1 TOPIC 5 Capacitors and Dielectrics. 2 Capacitors are a means of storing electric charge (and electric energy) It takes energy to bring charge together.
JIT HW 25-9 Conductors are commonly used as places to store charge You can’t just “create” some positive charge somewhere, you have to have corresponding.

JIT HW 25-9 Conductors are commonly used as places to store charge You can’t just “create” some positive charge somewhere, you have to have corresponding.
Physics 2102 Lecture: 08 THU 11 FEB Capacitance I Physics 2102 Jonathan Dowling 25.1–4.

Physics 2102 Lecture: 08 THU 11 FEB Capacitance I Physics 2102 Jonathan Dowling 25.1–4.
September 29, 2008 CAPACITORS How did you do? A. Great B. OK C. Poor D. Really bad E. I absolutely flunked!

September 29, 2008 CAPACITORS How did you do? A. Great B. OK C. Poor D. Really bad E. I absolutely flunked!
Capacitance.

Capacitance.

Similar presentations

Ads by Google