-Electric Potential Energy -Electric Potential Difference(Voltage)

Slides:

Advertisements

Similar presentations

Topic 9.3 Electric Field, Potential, and Energy

Advertisements

Electric Potential I Physics 2113 Jonathan Dowling Physics 2113 Lecture 13: FRI 13 FEB Danger!

Copyright © 2009 Pearson Education, Inc. Lecture 4 – Electricity & Magnetism b. Electric Potential.

Physics 2102 Lecture 5 Electric Potential I Physics 2102

Lecture 3 Electrical Energy Chapter 16.1  16.5 Outline Potential Difference Electric Potential Equipotential Surface.

Electric Potential Energy A charge q in an electric field behaves similarly to a mass m in a gravitational field. The electric force F = qE is conservative.

Concept Summary Batesville High School Physics. Electric Fields  An electric charge creates a disturbance in the space around it - an electric field.

Electric Fields -Electric Field: the region around a charged particle through which a force is exerted on another charged particle -Test Charge: an idealized.

Book Reference : Pages To examine the concept of Electric field strength (two ways) 2.To examine the factors which affect the nature of an 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.

Electric Potential I Physics 2102 Jonathan Dowling Physics 2102 Lecture: 08 FRI 30 JAN Ch Danger!

Chapter 24: Electric Potential 24-2: Electric potential energy Coulomb ’ s law looks like the gravitation law. Hence, it is conservative. What does it.

ELECTRIC POTENTIAL. Electric Potential: Energy a charge has due to its position in an electric field. EPE distance.

The forces between electrical charges have an electrical potential energy associated with this force. The total ME = KE + gravitational PE + elastic PE.

Electric Potential & Electric Potential Energy. Electric Potential Energy The electrostatic force is a conservative (=“path independent”) force The electrostatic.

Electric Fields and Forces

 Assess. Statements due Monday, 10/20/14.

Electric Potential and Energy. Objectives Define work and relate it to energy Define electric potential difference, and relate it to the work done on.

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 Potential Potential Difference and Electric Potential Potential Differences in a Uniform Electric Field Electric Potential and Potential Energy.

© John Parkinson 1 2 Electric Field "An electric field is a region in which charged particles experience a force" ELECTRIC FIELD +Q FORCE -Q FORCE Lines.

Fields in Parallel Plates- Capacitors Physics Mrs. Coyle.

Parallel Plates.

PARALLEL PLATES. From previous work, the electric field strength can be found from the electric force on a test charge.

Electric Potential. Electric Potential: or Units: 1 volt V = 1 joule/coulomb V is a SCALAR V is determined to within an arbitrary constant. We can choose.

-Electric Potential Energy -Electric Potential AP Physics C Mrs. Coyle.

Lecture 19 Electric Potential

The Electric Field. The electric field E at a point in space is defined as an electric force F, acting on a positive test charge q divided by the magnitude.

Key Points Potential is Inversely Proportional to distance Electric Field Strength is Proportional to the Inverse Square of the distance Equipotentials.

Electric Field magnitude of the electric force on a small, positive test charge divided by the magnitude of that test charge direction of the electric.

Ch 17: Electric Potential Ch 17 introduces the idea of electric potential (also called Voltage)

Watch our favorite friend explain awesome things AGAIN!! Electric.

Electric Potential Chapter 17. The conservation of energy very useful way to view electrical activity Also a great problem solving tool.

An electric force of 4.5 x N is measured between two particles. One particle has a charge of 2.0 x C & the other has a charge of 3.0 x

5.4 Electric energy, Electric Potential, and Electric Potential Difference p Electric Potential Energy In Uniform Fields The Work-Energy theorem.

Gravitational Potential Energy Gravitational Potential B Fg = mg Gravitational Potential A The particle with a given mass will have more G.P.E at pt B.

Electrical Energy and Capacitance Electrical Potential Energy.

-Electric Potential Energy -Electric Potential -Electric Potential Difference(Voltage) AP Physics C Mrs. Coyle.

Electric Field.

Force between Two Point Charges

Electric Potential Energy and Potential Difference

Electric Potential Energy

-Electric Potential Energy -Electric Potential Difference(Voltage)

Electric Fields and Electric Potential

Electrical Potential.

ELECTRIC POTENTIAL.

Topic 9.3 Electric Field, Potential, and Energy

ELECTRIC Potential © John Parkinson.

Chapter 23 Electric Potential

Electric Fields and Electric Potential

Electric Potential Energy

Electric Potential and Electric Energy

Review: Work and Energy

Storing Electrical Energy Electrical Potential (Voltage)

Physics 2102 Lecture 06: THU 04 FEB

Relation Between Electric Potential V & Electric Field E

Equipotential Surface

Physics 2113 Lecture 11 Electric Potential I Physics 2113

Fields and Conductors Actually make sense.

Chapter 17 Electric Potential.

Work and Electric Potential

Chapter 25 - Summary Electric Potential.

Electrical Potential Voltage.

Unit 2 Particles and Waves Electric Fields and Movements of Charge

Chapter 23 Electric Potential

V (in Volts) = Potential EPE (in Joules) = Electric Potential Energy

Aim: How do we explain electric potential difference (or Voltage)?

Fields in Parallel Plates-Capacitors

Electric Potential.

Starter (5 mins): An object with 25 x 10-6 C of charge is placed in an electric field (electric field strength = 3000 NC-1). Define ‘electric field’

Presentation transcript:

-Electric Potential Energy -Electric Potential Difference(Voltage) Physics Mr. Berman

Gravitational Potential Energy Higher Potential Energy Lower Potential Energy

Electric Potential Energy- Two Unlike Charges + Higher Potential Energy - Lower Potential Energy

Work done by an Electric Force For a point charge, qo , in field, E: Force from the field: F=qoE The work done by the force to move the charge from point A to B (in the direction of the field) is: W=Fd The object loses potential energy.

Change in Electric Potential Energy DPEA->B = PEB-PEA = W W: work done by the force F to move the charge from A to B.

Electric Potential Energy Which point is at a higher electric potential energy location?

Electric Potential Difference (Voltage ): -The work per unit charge required to move a charge between two positions in an electric field. DV = W/qo q is the positive test charge Scalar Unit: Volt = J / C

Electric Potential Which point is at a higher electric potential?

Electric Potential Electric Field lines point to the lower potential.

Equipotential Lines Simulation of Field with Equipotential Lines http://glencoe.mcgraw-hill.com/sites/0078458137/student_view0/chapter21/electric_fields_applet.html

Electric Field Strength (Vector) in Terms of Voltage E= V/d Unit : V / m N / C Note: -Electric Field is a vector. -Voltage is a scalar.

Electric Fields Between Parallel Plates Uniform Electric Field of Strength: E = V / d d is the distance between the plates Units: V/m =N/C=J/(Cm)

Force Experienced by a Test Charge Inside the Parallel Plate Field The field is uniform so at any point in the field a test charge would feel a force F = qE

Work and Energy V=Ed V=W/q0 W/q0= Ed W=q0 Ed Unit for work: Joule or the electron volt 1 eV= qe 1V= 1.6 x 10-19C x 1V 1eV= 1.6 x 10-19J

Problem 1 Find: a)The field inside the plates. b)The force felt by a 9nC charge that is situated in the field. 120N/C, 10.8 x 10 **-7 N

Continued c)Draw the equipotential surfaces between the plates (hint: equally spaced and parallel) d)If there three equipotential surfaces,what would be the distance between each? e)The work to move the charge from one equipotential to the other.

Continued f)The potential difference between each equipotential surface and the negative plate.

Note Zero work is done when a charge is moved along an equipotential surface.