General Physics 2Magnetism1 E9 – Currents Create Magnetic Fields A moving charge creates a magnetic field Superposition principle for a wire segment Biot-Savart.

Slides:

Advertisements

Similar presentations

Magnetic Field due to a Current-Carrying Wire Biot-Savart Law

Advertisements

Lecture 8 Examples of Magnetic Fields Chapter 19.7  Outline Long Wire and Ampere’s Law Two Parallel Contours Solenoid.

Phys 102 – Lecture 12 Currents & magnetic fields 1.

Lecture Demos: E-40 Magnetic Fields of Permanent Magnets (6A-1) E-41 Oersted’s Experiment (6B-1) E-42 Force on a Moving Charge (6B-2) 6B-3 Magnetic Field.

Chapter 22 Magnetism AP Physics B Lecture Notes.

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Today’s Concept: What Causes Magnetic Fields

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Motion of Charged Particles in Magnetic Fields

When a charged particle moves through a magnetic field, the direction of the magnetic force on the particle at a certain point is Q in the direction.

Dr. Jie ZouPHY Chapter 30 Sources of the Magnetic Field.

Lecture 8b – Sources of Magnetic Field

Problem 2 Find the torque about the left hand segment on the loop as a function of θ, the angle the plane makes with the horizontal plane.

Physics Department, New York City College of Technology

Current carrying wires 1820 Hans Christian Oersted Hans Christian Ørsted.

AP Physics C Chapter 28.  s1/MovingCharge/MovingCharge.html s1/MovingCharge/MovingCharge.html.

Today’s agenda: Magnetic Fields Due To A Moving Charged Particle. You must be able to calculate the magnetic field due to a moving charged particle. Biot-Savart.

Chapter 30: Sources of the Magnetic Field

Chapter 29 Magnetic Fields Due to Currents In this chapter we will explore the relationship between an electric current and the magnetic field it generates.

Sources of the Magnetic Field

Admin: mid-term 2 grades and solutions posted. Scripts back at the end Average = 84% (up from 72%). Excellent work! Assignment 10 posted. Due on Monday.

Chapter 19 Magnetism 1. Magnets 2. Earth’s Magnetic Field 3. Magnetic Force 4. Magnetic Torque 5. Motion of Charged Particles 6. Amperes Law 7. Parallel.

Van Allen Radiation Belts The Van Allen radiation belts consist of charged particles surrounding the Earth in doughnut-shaped regions. The particles are.

Physics 202, Lecture 13 Today’s Topics Magnetic Forces: Hall Effect (Ch. 27.8) Sources of the Magnetic Field (Ch. 28) B field of infinite wire Force between.

Chapter 21 Magnetic Forces and Magnetic Fields Magnetic Fields The needle of a compass is permanent magnet that has a north magnetic pole (N) at.

Review Problem Review Problem Review Problem 3 5.

Lecture 16 Magnetism (3) History 1819 Hans Christian Oersted discovered that a compass needle was deflected by a current carrying wire Then in 1920s.

Magnetic Fields Chapter Sources of the Magnetic Field The magnetic field of moving charges The magnetic field of currents Biot-Savart law Last.

Magnetic Field.

Electricity and magnetism

Chapter 20 Magnetism. Units of Chapter 20 Magnets and Magnetic Fields Electric Currents Produce Magnetic Fields Force on an Electric Current in a Magnetic.

Principles of Physics Magnetism and Electricity. 3 Dimensional Directions Right Left Up Down Into Out of page page xxxxx.

Forces on Current Carrying Wires. If a current carrying wire produces a magnetic field, we should expect that magnets exert a force on the wire Direction.

Electricity & Magnetism Seb Oliver Lecture 14: Biot-Savart Law.

Magnetic Fields due to Current in a Wire

Chapter 19: Magnetism Magnets  Magnets Homework assignment : 18,25,38,45,50 Read Chapter 19 carefully especially examples.

Chapter 20 Magnetism Magnets and Magnetic Fields Magnets have two ends – poles – called north and south. Like poles repel; unlike poles attract.

Lecture 27 Magnetic Fields: II

General Physics 2Magnetism1 Mass Spectrometer Used to identify atoms and their concentrations in a sample of material. Between S1 and S2, molecules go.

Chapter 19 Magnetic Force on Charges and Current- Carrying Wires.

Lecture 28: Currents and Magnetic Field: I

20 Magnetic Field & Forces. Magnetism S N S N Extended…

Biot-Savart Law Biot-Savart law: The constant  o is called the permeability of free space  o = 4  x T. m / A.

Applied Physics Lecture 14 Electricity and Magnetism Magnetism

Week 9 Presentation 1 Electromagnets 1. Learning Objectives: 1. Determine the magnitude and direction of the magnetic field strength generated by a straight.

Ph126 Spring 2008 Lecture #8 Magnetic Fields Produced by Moving Charges Prof. Gregory Tarl é

Magnetism. Magnets and Magnetic Fields Magnets have two ends – poles – called north and south. Like poles repel; unlike poles attract.

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Chapter 20 Magnetism Magnetism 20 Phy 2054 Lecture Notes.

1 15. Magnetic field Historical observations indicated that certain materials attract small pieces of iron. In 1820 H. Oersted discovered that a compass.

AP Physics ST Biot-Savart Law tutornext.com. Biot-Savart Law Shortly after Oersted discovered connection between a current-carrying wire and a magnetic.

Magnets have two ends – poles – called north and south. Like poles repel; unlike poles attract. If you cut a magnet in half, you don’t get a north pole.

Chapter 27 Magnetism HW6: Chapter 25: Pb. 19, Pb.25, Pb. 31 Chapter 26: Pb 18, Pb.32, Pb.50, Pb. 51 Due Wednesday, March 23.

Ampere’s Law Basic Premise Elementary application.

Magnetic Field due to a Current-Carrying Wire Biot-Savart Law

Magnetic Field due to a Current-Carrying Wire Biot-Savart Law

Magnetic Fields Due to Currents

Permittivity of free space (or electric constant)

Electricity & Magnetism

Electricity and Magnetism

Magnetic Forces and Fields

Magnetic Field due to a Current-Carrying Wire

26.5 Sources of the Magnetic Field

General Physics (PHY 2140) Lecture 14 Electricity and Magnetism

Day 4 ELECTROMAGNETISM: The Magnetic Field of a Current Carrying Wire

Electricity and Magnetism

Magnetic Fields Due to Currents

Magnetic Fields Due to Currents

Electricity & Magnetism

Chapter 29 Magnetic Fields Due to Currents

Presentation transcript:

General Physics 2Magnetism1 E9 – Currents Create Magnetic Fields A moving charge creates a magnetic field Superposition principle for a wire segment Biot-Savart law Magnetic field of a long, straight wire Magnetic field of a circular loop All magnets involve circulating currents Axial current distribution - wire

General Physics 2Magnetism2 Biot-Savart Law Superposition principle for a moving charge Superposition principle for wire segments

General Physics 2Magnetism3 Electric Currents & Magnetic Fields Electric current produces a magnetic field! Hans Christian Oersted ( ) Electric current exerts force on magnet Direction of magnetic field given by Wire Rule

General Physics 2Magnetism4 Think-Pair-Share Indicate the direction of B due to the current- carrying wire at each of the points C, D, and E in the plane of the page.

General Physics 2Magnetism5 White Board Indicate direction of magnetic field for the following wires (arrow shows direction of I): a)b) c)d) e)I flowing clockwisef) I flowing counter-clockwise

General Physics 2Magnetism6 Magnetic Field of long straight wire You will derive this in lab. Equation gives magnitude of B Right-Hand-Rule gives direction permeability of free space,   :

General Physics 2Magnetism7 Magnetic Field of a Current Loop Units of Magnetic Field Tesla (SI) 1 T = 1 N/(A m) Gauss (cgs) 1 G = T Earth’s B field: B = 0.5 G B = 0.5 x T Direction of magnetic field given by Loop Rule

Summary of Right-Hand Rules Insert Table E9.1 General Physics 2Magnetism8

General Physics 2Magnetism9 Think-Pair-Share Two long wires are oriented so that they are perpendicular to each other. At their closest, they are 20.0-cm apart. What is the magnitude of the magnetic field at a point midway between them?

General Physics 2Magnetism10 Force between 2 parallel wires Calculate B due to wire I 1

General Physics 2Magnetism11 Find direction of force from Right-Hand-Rule

General Physics 2Magnetism12 Think-Pair-Share Two long straight parallel wires are 15 cm apart. Wire A carries a 2.0 A current. Wire B’s current is 4.0 A in the same direction. (d) Determine the force per length on wire A due to wire B, and the force on wire B due to wire A.

General Physics 2Magnetism13 Practice Problems Magnetism: Worksheet 1 Worksheet 3 Exploration in Physics Magnetism –activities in the hints tab Group Problems E9B.5, E9B.6, E9S.8