Presentation is loading. Please wait.

Presentation is loading. Please wait.

April 7 AP Physics. AP Practice Exam April 28 ACT day 1 pm Not optional.

Published byNoah Carter Modified over 10 years ago

Similar presentations

Presentation on theme: "April 7 AP Physics. AP Practice Exam April 28 ACT day 1 pm Not optional."— Presentation transcript:

1 April 7 AP Physics

2 AP Practice Exam April 28 ACT day 1 pm Not optional

3 In: Two 1 kg spheres each carry a charge of magnitude 1C. How does F E, the strength of the electric force between the spheres, compare to F G, the strength of their gravitational attraction? a)F E < F G b)F E =F G c)F E >F G d)If the charges on the spheres are of the same sign, then F E >F G ; but if the charges on the spheres are of the opposite sign, then F E <F G e)Cannot be determined without knowing the distance between the spheres.

4 Objective: To learn about static electricity: –Millikan Oil Drop Experiment –Electric potential energy –Electric potential –Capacitance –Parallel plate capacitors

5 Homework Check 18, 20, 24, 30

6 Robert Millikan Oil Drop experiment Measured charge to mass ratio of electron Published in 1913 Nobel prize 1932

7 Millikan oil-drop experiment qE = mg q/m=g/E q e = -1.6x10 -19

8

9

10 Electrical potential energy Work

11 Electric potential energy The work done to bring a charge from infinity to a particular distance = - potential energy the charge has at that point. U E =-Work Also, the change in PE from one point to another = -work done to change the position. ΔU E =-W

12 In a field generated by a point charge: U E =kq 1 q 2 r In a uniform field: ΔU E =qEΔd

13 Both Gravitational potential and Electrical potential energy depend on position

14 Electric potential The energy per each individual charge. Measured in Volts V = U E q

15

16 Electric potential: uniform field V = -Ed

17 Electric potential: Point charge V = kq r

18 Equipotential lines

19 Equipotential surfaces

20

21 No work is done moving around on an equipotential surface. Work is done moving from one equipotential surface to another.

22 Capacitance A capacitor is a device that stores energy in the form of charges. C = Q ΔV

23 Parallel Plate capacitor Stores energy by building up opposite charges on each plate. C = Є o A d

24 Energy stored in a capacitor U c = ½ QV= ½ CV 2

25 Equivalent Capacitance parallel circuits

26 C=Q/V V 1 =V 2 =V e Q 1 +Q 2 =Q e so…C 1 +C 2 =C e

27 Equivalent Capacitance Series circuits

28 C=Q/V V 1 +V 2 =V e Q 1 =Q 2 =Qe so…1/C 1 +1/C 2 =1/C e

29

30

31

32 Out: What is the equivalent capacitance of the circuit between a and b ?

Download ppt "April 7 AP Physics. AP Practice Exam April 28 ACT day 1 pm Not optional."

Similar presentations

April 7 AP Physics. AP Practice Exam April 28 ACT day 1 pm Not optional.

April 7 AP Physics. AP Practice Exam April 28 ACT day 1 pm Not optional.
Two questions: (1) How to find the force, F on the electric charge, Q excreted by the field E and/or B? (2) How fields E and/or B can be created?

Two questions: (1) How to find the force, F on the electric charge, Q excreted by the field E and/or B? (2) How fields E and/or B can be created?
R3-1 Physics I Review 3 Review Notes Exam 3. R3-2 Newton’s Law of Universal Gravitation.

R3-1 Physics I Review 3 Review Notes Exam 3. R3-2 Newton’s Law of Universal Gravitation.
…and all the pretty variations… F = k q 1 q 2 r2r2 E = k q 1 r2r2 U = k q 1 q 2 r V = k q 1 r.

…and all the pretty variations… F = k q 1 q 2 r2r2 E = k q 1 r2r2 U = k q 1 q 2 r V = k q 1 r.
1e  qe = 10-19 Coulomb mproton = 1836melectron

1e  qe = 10-19 Coulomb mproton = 1836melectron
Electric Force Chapter 17.2. Coulomb’s Law Coulomb’s Constant The proportionality constant k in Coulomb’s law is similar to G in Newton’s law of gravitation.

Electric Force Chapter Coulomb’s Law Coulomb’s Constant The proportionality constant k in Coulomb’s law is similar to G in Newton’s law of gravitation.
A hydrogen atom is composed of a nucleus containing a single proton, about which a single electron orbits. The electrical force between the two particles.

A hydrogen atom is composed of a nucleus containing a single proton, about which a single electron orbits. The electrical force between the two particles.
Coulomb’s Law. Electric Force  Two positively charged spheres will repel each other.  The force will cause a deflection until equilibrium is reached.

Coulomb’s Law. Electric Force  Two positively charged spheres will repel each other.  The force will cause a deflection until equilibrium is reached.
Current and Resistance Electric Charge and Coulomb`s law Lecture 20 Monday: 29 March 2004.

Current and Resistance Electric Charge and Coulomb`s law Lecture 20 Monday: 29 March 2004.
Dr. Jie ZouPHY 13611 Chapter 23 Electric fields (cont.)

Dr. Jie ZouPHY Chapter 23 Electric fields (cont.)
Daily Warm-Up How is the size of the force acting on two charges related to the distance between the charges? How is the size of the charges related to.

Daily Warm-Up How is the size of the force acting on two charges related to the distance between the charges? How is the size of the charges related to.
Chapter 23 Electric Potential

Chapter 23 Electric Potential
J. Pulickeel April 2009 SPH 4U1. Electric Forces An Electric Force is a non-contact force which can act at a distance. For instance a (+) charged ebonite.

J. Pulickeel April 2009 SPH 4U1. Electric Forces An Electric Force is a non-contact force which can act at a distance. For instance a (+) charged ebonite.
Electric Potential, Electric Potential Energy, and the Generalized Work Energy Theorem.

Electric Potential, Electric Potential Energy, and the Generalized Work Energy Theorem.
Electrostatics Review LCHS Dr.E. Which is a vector quantity? (A) speed (B) work (C) mass (D) displacement.

Electrostatics Review LCHS Dr.E. Which is a vector quantity? (A) speed (B) work (C) mass (D) displacement.
e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- p+p+ p+p+ p+p+ Connecting two parallel plates to a battery produces uniform electric field  the electric.

e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- p+p+ p+p+ p+p+ Connecting two parallel plates to a battery produces uniform electric field  the electric.
Chapter 18 Summary Essential Concepts and Formulas.

Chapter 18 Summary Essential Concepts and Formulas.
Electricity Lesson 1 Forces and Electrical Charges.

Electricity Lesson 1 Forces and Electrical Charges.
Electric Fields and Forces

Electric Fields and Forces
Electric Fields Year 13. Electrostatic force Like charges repel, unlike charges attract How does this force act if charges are not in contact? –An electric.

Electric Fields Year 13. Electrostatic force Like charges repel, unlike charges attract How does this force act if charges are not in contact? –An electric.

Similar presentations

Ads by Google