Electromagnetism 2. D. the charge moves at right angles to the lines of the magnetic field. (1)
|
|
- Heather Snow
- 5 years ago
- Views:
Transcription
1 ame: Date: Electromagnetism 2 1. A magnetic force acts on an electric charge in a magnetic field when A. the charge is not moving. B. the charge moves in the direction of the magnetic field. C. the charge moves in the opposite direction to the magnetic field. D. the charge moves at right angles to the lines of the magnetic field. 2. The diagram below shows a charged particle about to enter a region of uniform magnetic field directed into the page. magnetic field charged particle Which of the following correctly describes the change, if any, in the kinetic energy and the momentum of the particle in the magnetic field? Kinetic energy Momentum A. Changed Changed B. Changed Unchanged C. Unchanged Changed D. Unchanged Unchanged 1
2 3. A straight conductor is in the plane of a uniform magnetic field as shown. current I magnetic field The current in the conductor is I and the conductor is at an angle θ to the magnetic field. The force per unit length on the conductor due to the current in the magnetic field is. Which is the correct expression for the magnitude of the magnetic field strength? A. B. C. D. sinθ I cosθ I I sinθ I cosθ 4. The diagram below shows three parallel wires, Q and R that are equally spaced. I I I wire wire Q wire R The currents in the wires are each of the same magnitude I and are in the directions shown. The resultant force on wire Q due to the current in wire and in wire R is A. perpendicular and into the plane of the paper. B. perpendicular and out of the plane of the paper. C. in the plane of the paper to the right. D. in the plane of the paper to the left. 2
3 5. A long, straight current-carrying wire is placed normal to the plane of the page. The current in the wire is into the plane of the page. Which of the following diagrams best represents the magnetic field around the wire? A. B. C. D. 6. The Earth s magnetic field may be compared with that of a bar magnet. Which of the following diagrams correctly shows the orientation of the bar magnet in this model? A. geographical north pole B. geographical north pole C. geographical north pole D. geographical north pole 3
4 7. This question is about magnetic fields. (a) Using the diagram below, draw the magnetic field pattern of the Earth. orth Earth (b) tate what other object produces a magnetic field pattern similar to that of the Earth.... (c) A long vertical wire passes through a sheet of cardboard that is held horizontal. A small compass is placed at the point and the needle points in the direction shown. cardboard sheet direction of compass needle A current is passed through the wire and the compass needle now points in a direction that makes an angle of 30 to its original direction as shown below. direction of compass needle with current in wire cardboard sheet 30 original direction of compass needle 4
5 (i) Draw an arrow on the wire to show the direction of current in the wire. Explain why it is in the direction that you have drawn. The magnetic field strength at point due to the current in the wire is B W and the strength of the horizontal component of the Earth s magnetic field is B E. Deduce, by drawing a suitable vector diagram, that B E = B W tan 60. (Total 7 marks) 8. This question is about forces on charged particles in electric and magnetic fields. The diagram shows two parallel plates situated in a vacuum. One plate is at a positive potential with respect to the other. + ath of positively charged particle A positively charged particle passes into the region between the plates. Initially, the particle is travelling parallel to the plates. (a) On the diagram, (i) draw lines to represent the electric field between the plates. (3) show the path of the charged particle as it passes between, and beyond, the plates. 5
6 (b) An electron is accelerated from rest in a vacuum through a potential difference of 750 V. (i) Determine the change in electric potential energy of the electron. Deduce that the final speed of the electron is m s 1. The diagram below shows a cross-section through a current-carrying solenoid. The current is moving into the plane of the paper at the upper edge of the solenoid and out of the plane of the paper at the lower edge. There is a vacuum in the solenoid. Current into plane of paper Current out plane of paper (c) (i) ketch lines to represent the magnetic field inside and at each end of the solenoid. (4) A positively charged particle enters the solenoid along its axis. On the diagram, show the path of the particle in the solenoid. An electron is injected into a region of uniform magnetic field of flux density 4.0 mt. The velocity of the electron is m s 1 at an angle of 35 to the magnetic field, as shown below m s 1 35 Direction of magnetic field 6
7 (d) (i) Determine the component of the velocity of the electron normal to the direction of the magnetic field. Describe, making calculations where appropriate, the motion of the electron due to this component of the velocity. (4) (iii) Determine the component of the velocity of the electron along the direction of the magnetic field. (iv) tate and explain the magnitude of the force on the electron due to this component of the velocity. (e) With reference to your answers in (d), describe the shape of the path of the electron in the magnetic field. You may draw a diagram if you wish (Total 25 marks) 7
1. (a) On the diagram below, draw the magnetic field pattern around a long straight currentcarrying
1. (a) On the diagram below, draw the magnetic field pattern around a long straight currentcarrying conductor. current-carrying wire The diagram below shows a coil consisting of two loops of wire. The
More informationD. To the right (Total 1 mark)
1. An electron passes the north pole of a bar magnet as shown below. What is the direction of the magnetic force on the electron? A. Into the page B. Out of the page C. To the left D. To the right 2. A
More informationFig. 2.1 I =... A [2] Suggest why it would be impossible for overhead cables carrying an alternating current to float in the Earth s magnetic field.
1 (a) Fig. 2.1 shows a horizontal current-carrying wire placed in a uniform magnetic field. I region of uniform magnetic field wire Fig. 2.1 The magnetic field of flux density 0.070 T is at right angles
More informationMAGNETIC FIELDS CHAPTER 21
MAGNETIC FIELDS CHAPTER 21 1. A magnetic field may exist at a point as a result of moving charged particle 2. When a tiny bar magnet is suspended horizontally from its center, it lines up along the north
More informationPHYSICS - CLUTCH CH 26: MAGNETIC FIELDS AND FORCES.
!! www.clutchprep.com CONCEPT: HOW MAGNETS WORK Forever ago we found metals that would attract each other. First found in island of Magnesia named. - Most common are iron (Fe), cobalt (Co), nickel (Ni),
More informationθ θ θ θ current I Fig. 6.1 The conductor and the magnetic field are both in the plane of the paper. State
3 1 (a) A straight conductor carrying a current I is at an angle θ to a uniform magnetic field of flux density B, as shown in Fig. 6.1. magnetic field, flux density B θ θ θ θ current I Fig. 6.1 The conductor
More informationTopic 6.3 Magnetic Force and Field. 2 hours
Topic 6.3 Magnetic Force and Field 2 hours 1 Magnetic Fields A magnetic field is said to exist at a point if a compass needle placed there experiences a force. The appearance of a magnetic field can be
More information24 Magnetic Fields BIGIDEA Write the Big Idea for this chapter.
24 Magnetic Fields BIGIDEA Write the Big Idea for this chapter. Use the What I Know column to list the things you know about the Big Idea. Then list the questions you have about the Big Idea in the What
More informationMagnetism 2. D. the charge moves at right angles to the lines of the magnetic field. (1)
Name: Date: Magnetism 2 1. A magnetic force acts on an electric charge in a magnetic field when A. the charge is not moving. B. the charge moves in the direction of the magnetic field. C. the charge moves
More informationPhysics Week 5(Sem. 2) Name. Magnetism. Chapter Summary. Magnetic Fields
Physics Week 5(Sem. 2) Name Chapter Summary Magnetism Magnetic Fields Permanent magnets have long been used in navigational compasses. The needle in a compass is supported to allow it to freely rotate
More information1. The diagram shows the electric field lines produced by an electrostatic focussing device.
1. The diagram shows the electric field lines produced by an electrostatic focussing device. Which one of the following diagrams best shows the corresponding equipotential lines? The electric field lines
More information2. Draw the Magnetic Field lines created by the below two bar magnets. Homework 3. Draw the Magnetic Field lines created by the below bar magnets.
Chapter Problems Magnetic Fields 1. Draw the Magnetic Field lines created by the below bar magnet. S N 2. Draw the Magnetic Field lines created by the below two bar magnets S N N S 3. Draw the Magnetic
More informationChapter 19. Magnetism. 1. Magnets. 2. Earth s Magnetic Field. 3. Magnetic Force. 4. Magnetic Torque. 5. Motion of Charged Particles. 6.
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 Conductors 8. Loops and Solenoids 9. Magnetic Domains
More informationChapter 22 Magnetism
Chapter 22 Magnetism 1 Overview of Chapter 22 The Magnetic Field The Magnetic Force on Moving Charges The Motion of Charged Particles in a Magnetic Field The Magnetic Force Exerted on a Current-Carrying
More informationUnit 8: Electromagnetism
Multiple Choice Portion Unit 8: Electromagnetism 1. Four compasses are placed around a conductor carrying a current into the page, as shown below. Which compass correctly shows the direction of the magnetic
More informationPHYSICS 3204 PUBLIC EXAM QUESTIONS (Magnetism &Electromagnetism)
PHYSICS 3204 PUBLIC EXAM QUESTIONS (Magnetism &Electromagnetism) NAME: August 2009---------------------------------------------------------------------------------------------------------------------------------
More informationMagnetic Fields & Forces
Magnetic Fields & Forces Oersted discovered that an electric current will produce a magnetic field around conductor only a moving charge creates a magnetic field the magnetic field is circular around the
More informationSection 3: Mapping Magnetic Fields. In this lesson you will
Section 3: Mapping Magnetic Fields In this lesson you will state the Law(s) of magnetic forces use iron filings to map the field around various configurations of bar magnets and around a horse shoe magnet
More information4. An electron moving in the positive x direction experiences a magnetic force in the positive z direction. If B x
Magnetic Fields 3. A particle (q = 4.0 µc, m = 5.0 mg) moves in a uniform magnetic field with a velocity having a magnitude of 2.0 km/s and a direction that is 50 away from that of the magnetic field.
More informationFARADAY S AND LENZ LAW B O O K P G
FARADAY S AND LENZ LAW B O O K P G. 4 3 6-438 MOTIONAL EMF AND MAGNETIC FLUX (DERIVIATION) Motional emf = vbl Let a conducting rod being moved through a magnetic field B During time t 0 the rod has been
More informationElectric_Field_core_P1
Electric_Field_core_P1 1. [1 mark] An electron enters the region between two charged parallel plates initially moving parallel to the plates. The electromagnetic force acting on the electron A. causes
More informationChapter 27, 28 & 29: Magnetism & Electromagnetic Induction
Chapter 27, 28 & 29: Magnetism & Electromagnetic Induction The Magnetic Field The Magnetic Force on Moving Charges The Motion of Charged Particles in a Magnetic Field The Magnetic Force Exerted on a Current-Carrying
More informationMaterial World: Electricity
17. Coulomb s Law The force, F, between two objects with charge q1 and q2, is given by: k q q 1 2 F -, where r = distance between the two charges in meters 2 r k = Coulomb's constant = 9 X 10 9 m 2 /C
More informationPHYSICS 30 ELECTROMAGNETISM ASSIGNMENT 3 VERSION:0
Communication includes statement of the physics concept used and how it is applied in the situation along with diagrams, word explanations and calculations in a well laid out formula, substitution, answer
More informationELECTROMAGNETISM. Challenging MCQ questions by The Physics Cafe. Compiled and selected by The Physics Cafe
ELECTROMAGNETISM Challenging MCQ questions by The Physics Cafe Compiled and selected by The Physics Cafe 1 (a) An electron is travelling at right angles to a uniform magnetic field of flux density 1.5
More informationChapter 12. Magnetism and Electromagnetism
Chapter 12 Magnetism and Electromagnetism 167 168 AP Physics Multiple Choice Practice Magnetism and Electromagnetism SECTION A Magnetostatics 1. Four infinitely long wires are arranged as shown in the
More informationChapter 22, Magnetism. Magnets
Chapter 22, Magnetism Magnets Poles of a magnet (north and south ) are the ends where objects are most strongly attracted. Like poles repel each other and unlike poles attract each other Magnetic poles
More informationMagnetic Fields & Forces
Magnetic Fields & Forces Oersted discovered that an electric current will produce a magnetic field around conductor only a moving charge creates a magnetic field the magnetic field is circular around the
More informationGeneral Physics II. Magnetic Fields and Forces
General Physics II Magnetic Fields and Forces 1 Magnetism Magnetism underlies the operation of the hard disk drive, which is the mainstay of modern electronic information storage, from computers to ipods.
More information3/7/2019 N S N S. Magnetism. Magnetism
Magnetism Magnetic charges Called poles Two types, North and South Like poles repel each other Opposite poles attract each other Found only in North/South pairs (Dipoles) Magnetism Magnetic poles Found
More informationGeneral Physics (PHY 2140)
General Physics (PHY 2140) Lecture 15 Electricity and Magnetism Magnetism Applications of magnetic forces Induced voltages and induction Magnetic flux and induced emf Faraday s law http://www.physics.wayne.edu/~apetrov/phy2140/
More informationPHYSICS ASSIGNMENT ES/CE/MAG. Class XII
PHYSICS ASSIGNMENT ES/CE/MAG Class XII MM : 70 1. What is dielectric strength of a medium? Give its value for vacuum. 1 2. What is the physical importance of the line integral of an electrostatic field?
More informationChapter 4: Magnetic Field
Chapter 4: Magnetic Field 4.1 Magnetic Field 4.1.1 Define magnetic field Magnetic field is defined as the region around a magnet where a magnetic force can be experienced. Magnetic field has two poles,
More informationPhysicsAndMathsTutor.com 1
PhysicsndMathsTutor.com 1 Q1. Which line, to, correctly describes the trajectory of charged particles which enter, at right angles, (a) a uniform electric field, and (b) a uniform magnetic field? (a) uniform
More informationChapter 21. Magnetism
Chapter 21 Magnetism Magnets Poles of a magnet are the ends where objects are most strongly attracted Two poles, called north and south Like poles repel each other and unlike poles attract each other Similar
More information4.7.1 Permanent and induced magnetism, magnetic forces and fields. Content Key opportunities for skills development
4.7 Magnetism and electromagnetism Electromagnetic effects are used in a wide variety of devices. Engineers make use of the fact that a magnet moving in a coil can produce electric current and also that
More informationCHAPTER 20 Magnetism
CHAPTER 20 Magnetism Units Magnets and Magnetic Fields Electric Currents Produce Magnetic Fields Force on an Electric Current in a Magnetic Field; Definition of B Force on Electric Charge Moving in a Magnetic
More information5. Positive charges one another.
1. Electric field lines indicate A. Both direction and relative strength B. Neither direction nor strength 5. Positive charges one another. A. Repel B. Attract 2. Whether or not charges will move in a
More informationAn ion follows a circular path in a uniform magnetic field. Which single change decreases the radius of the path?
T5-1 [237 marks] 1. A circuit is formed by connecting a resistor between the terminals of a battery of electromotive force (emf) 6 V. The battery has internal resistance. Which statement is correct when
More informationKirchhoff s rules, example
Kirchhoff s rules, example Magnets and Magnetism Poles of a magnet are the ends where objects are most strongly attracted. Two poles, called north and south Like poles repel each other and unlike poles
More informationElectromagnetic Induction
Electromagnetic Induction Name Section Theory Electromagnetic induction employs the concept magnetic flux. Consider a conducting loop of area A in a magnetic field with magnitude B. The flux Φ is proportional
More informationMagnetism Chapter Questions
Magnetism Chapter Questions 1. Both Electric and Magnetic Forces will cause objects to repel and attract each other. What is a difference in the origin of these forces? 2. A Magnet has a north and a south
More informationCh 17 Problem Set 31. A toaster is rated at 600 W when connected to a 120-V source. What current does the toaster carry, and what is its resistance?
Ch 17 Problem Set 31. A toaster is rated at 600 W when connected to a 120-V source. What current does the toaster carry, and what is its resistance? 33. How many 100-W lightbulbs can you use in a 120-V
More informationEarth as a Magnet. The strength and orientation of the earth s magnetic field varies over time and location.
Magnetism Magnetic charges Called poles Two types, North and South Like poles repel each other Opposite poles attract each other Found only in North/South pairs (Dipoles) N S Magnetism Magnetic poles Found
More informationB for a Long, Straight Conductor, Special Case. If the conductor is an infinitely long, straight wire, θ 1 = 0 and θ 2 = π The field becomes
B for a Long, Straight Conductor, Special Case If the conductor is an infinitely long, straight wire, θ 1 = 0 and θ 2 = π The field becomes μ I B = o 2πa B for a Curved Wire Segment Find the field at point
More informationPHYSICS 12 NAME: Magnetic Field and Force
NAME: Magnetic Field and Force 1. An aircraft whose wingspan is 15 m carries a static charge of 0.60 C. It travels at 240 m/s perpendicular to a 1.5x10-4 T magnetic field. What magnetic force does the
More informationPHYS ND semester Dr. Nadyah Alanazi. Lecture 16
1 PHYS 104 2 ND semester 1439-1440 Dr. Nadyah Alanazi Lecture 16 2 Chapter 29 Magnetic Field 29.1 Magnetic Fields and Forces 29.2 Magnetic Force Acting on a Current-Carrying Conductor 29.4 Motion of a
More information1-1 Magnetism. q ν B.(1) = q ( ) (2)
1-1 Magnetism Magnets exert forces on each other just like charges. You can draw magnetic field lines just like you drew electric field lines. Magnetic north and south pole s behavior is not unlike electric
More informationPhysicsAndMathsTutor.com 1
PhysicsAndMathsTutor.com 1 1. Millikan determined the charge on individual oil droplets using an arrangement as represented in the diagram. The plate voltage necessary to hold a charged droplet stationary
More informationChapter 24. Magnetic Fields
Chapter 24 Magnetic Fields 1 Magnetic Poles Every magnet, regardless of its shape, has two poles Called north and south poles Poles exert forces on one another Similar to the way electric charges exert
More informationUniversity Physics (Prof. David Flory) Chapt_29 Sunday, February 03, 2008 Page 1
University Physics (Prof. David Flory) Chapt_29 Sunday, February 03, 2008 Page 1 Name: Date: 1. A loop of current-carrying wire has a magnetic dipole moment of 5 10 4 A m 2. The moment initially is aligned
More informationPhysics 25 Chapter 21 Dr. Alward
Physics 25 Chapter 21 Dr. Alward Magnetism and Magnetic Forces Magnetic Field of a Bar Magnet Magnetic field lines flow away from the north pole and sink on the south pole. Like Poles Repel Unlike Poles
More informationVersion The diagram below represents lines of magnetic flux within a region of space.
1. The diagram below represents lines of magnetic flux within a region of space. 5. The diagram below shows an electromagnet made from a nail, a coil of insulated wire, and a battery. The magnetic field
More informationTSOKOS LSN 5-1 TO 5-5 TEST REVIEW
IB HYSICS Name: DEIL HYSICS eriod: Date: # Marks: BADDEST CLASS ON CAMUS TSOKOS LSN 5-1 TO 5-5 TEST REIEW 4. This question is about forces on charged particles. (a) (b) A charged particle is situated in
More informationMagnetism. Magnets Source of magnetism. Magnetic field. Magnetic force
Magnetism Magnets Source of magnetism Magnetic field Magnetic force Magnets and magnetic force Historical First magnets were pieces of iron-bearing rock called loadstone (magnetite, Fe 3 O 4 ) found originally
More informationPS I AP Physics 2 Electromagnetic Induction Multiple Choice Questions
PS I AP Physics 2 Electromagnetic Induction Multiple Choice Questions 1. A beam of electrons travels between two parallel coils of wire, as shown in the figures above. When the coils do not carry a current,
More informationPhysics - Grade 12. Revision Sheet for the Final Exam / Second Term. Academic Year: 2018/2019. Student s Name:.. Date: /3/2018
Physics - Grade 12 Revision Sheet for the Final Exam / Second Term Academic Year: 2018/2019 Student s Name:.. Date: /3/2018 Required Material: Chapter 18: Sections 1,2 & 3 (Textbook Pages: 628-661) Chapter
More informationGeneral Physics (PHY 2140)
General Physics (PHY 2140) Lecture 8 Electricity and Magnetism 1. Magnetism Application of magnetic forces Ampere s law 2. Induced voltages and induction Magnetic flux http://www.physics.wayne.edu/~alan/2140website/main.htm
More informationMagnets & Magnetic Fields
Magnets & Magnetic Fields Magnets Magnets have 2 poles, North and South if broken in half, each half will have both poles at the ends. Like poles repel, unlike poles attract. Hard Magnets- materials that
More information1 Fig. 3.1 shows the variation of the magnetic flux linkage with time t for a small generator. magnetic. flux linkage / Wb-turns 1.
1 Fig. 3.1 shows the variation of the magnetic flux linkage with time t for a small generator. 2 magnetic 1 flux linkage / 0 10 2 Wb-turns 1 2 5 10 15 t / 10 3 s Fig. 3.1 The generator has a flat coil
More information1) in the direction marked 1 2) in the direction marked 2 3) in the direction marked 3 4) out of the page 5) into the page
Q1) In the figure, the current element i dl, the point P, and the three vectors (1, 2, 3) are all in the plane of the page. The direction of db, due to this current element, at the point P is: 1) in the
More informationAP Physics 2 Electromagnetic Induction Multiple Choice
Slide 1 / 50 AP Physics 2 Electromagnetic Induction Multiple Choice www.njctl.org Slide 2 / 50 1 A beam of electrons travels between two parallel coils of wire, as shown in the figures above. When the
More informationTorque on a Current Loop
Today Chapter 19 Magnetism Torque on a current loop, electrical motor Magnetic field around a current carrying wire. Ampere s law Solenoid Material magnetism Clicker 1 Which of the following is wrong?
More informationMAGNETIC PROBLEMS. (d) Sketch B as a function of d clearly showing the value for maximum value of B.
PHYS2012/2912 MAGNETC PROBLEMS M014 You can investigate the behaviour of a toroidal (dough nut shape) electromagnet by changing the core material (magnetic susceptibility m ) and the length d of the air
More informationNCERT solutions Magnetic effects of current (In-text questions)
NCERT solutions Magnetic effects of current (In-text questions) Page No: 224 Question 1 Why does a compass needle get deflected when brought near a bar magnet? Compass needle is a small permanent magnet.
More informationSo far. Chapter 19. Today ( ) Magnets. Types of Magnetic Materials. More About Magnetism 10/2/2011
So far Chapter 19 Magnetism Electrostatics, properties of stationary charges Coulomb s law Electric field, electric potential Capacitors Ohm s law and resistance Today (19.1-19.4) Magnets Magnetism Earth
More informationWhich of the following is the SI unit of gravitational field strength?
T5-2 [122 marks] 1. A cell is connected in series with a 2.0Ω resistor and a switch. The voltmeter is connected across the cell and reads 12V when the switch is open and 8.0V when the switch is closed.
More informationChapter 27: Magnetic Field and Magnetic Forces
Chapter 27: Magnetic Field and Magnetic Forces Iron ore found near Magnesia Compass needles align N-S: magnetic Poles North (South) Poles attracted to geographic North (South) Like Poles repel, Opposites
More informationSPH 4U: Unit 3 - Electric and Magnetic Fields
Name: Class: _ Date: _ SPH 4U: Unit 3 - Electric and Magnetic Fields Modified True/False (1 point each) Indicate whether the statement is true or false. If false, change the identified word or phrase to
More informationCHAPTER 4: MAGNETIC FIELD
CHAPTER 4: MAGNETIC FIELD PSPM II 2005/2006 NO. 4 4. FIGURE 3 A copper rod of mass 0.08 kg and length 0.20 m is attached to two thin current carrying wires, as shown in FIGURE 3. The rod is perpendicular
More informationThis Week. 1/22/2018 Physics 214 Summer
This Week Magnetism: Are you attracted or repelled? Where does magnetism come from? What use is magnetism? Post pictures and notes on refrigerators Electrical motors turn electricity into work Generators
More informationElectromagnetic Induction and Faraday s Law
Electromagnetic Induction and Faraday s Law Induced EMF Almost 200 years ago, Faraday looked for evidence that a magnetic field would induce an electric current with this apparatus: He found no evidence
More information10/24/2012 PHY 102. (FAWOLE O.G.) Good day. Here we go..
Good day. Here we go.. 1 PHY102- GENERAL PHYSICS II Text Book: Fundamentals of Physics Authors: Halliday, Resnick & Walker Edition: 8 th Extended Lecture Schedule TOPICS: Dates Ch. 28 Magnetic Fields 12
More informationAnswers to examination-style questions. Answers Marks Examiner s tips
(a) the units of the quantities are: Force F: newton (N) Current I: ampere (A) Magnetic flux density B: tesla (T) or weber metre 2 (Wb m 2 ) Length l of wire in field: metre (m) The equation F = BIl applies
More informationElectromagnetic Induction. Bo Zhou Faculty of Science, Hokudai
Electromagnetic Induction Bo Zhou Faculty of Science, Hokudai Oersted's law Oersted s discovery in 1820 that there was a close connection between electricity and magnetism was very exciting until then,
More informationUnit 7 ~ Learning Guide Name:
Unit 7 ~ Learning Guide Name: Instructions: Using a pencil, complete the following notes as you work through the related lessons. Show ALL work as is explained in the lessons. You are required to have
More informationMODULE 4.2 MAGNETISM ELECTRIC CURRENTS AND MAGNETISIM VISUAL PHYSICS ONLINE
VISUAL PHYSICS ONLINE MODULE 4.2 MAGNETISM ELECTRIC CURRENTS AND MAGNETISIM When electric charges are in motion they exert forces on each other that can t be explained by Coulomb s law. If two parallel
More informationPHYSICS Fall Lecture 15. Electromagnetic Induction and Faraday s Law
PHYSICS 1444-001 Fall 2012 Lecture 15 Electromagnetic Induction and Faraday s Law A current can be produced by a changing magnetic field First shown in an experiment by Michael Faraday Induced emf A primary
More informationUnit Packet Table of Contents Notes 1: Magnetism Intro Notes 2: Electromagnets Notes 3: Electromagnetic Induction Guided Practice: Left Hand Rule #3
Unit Packet Table of Contents Notes 1: Magnetism Intro Notes 2: Electromagnets Notes 3: Electromagnetic Induction Guided Practice: Left Hand Rule #3 Name Date Notes: Magnetism intro. Regents Physics Objectives:
More informationFaraday s Law; Inductance
This test covers Faraday s Law of induction, motional emf, Lenz s law, induced emf and electric fields, eddy currents, self-inductance, inductance, RL circuits, and energy in a magnetic field, with some
More informationA) B/2 B) 4B C) B/4 D) 8B E) 2B
A long straight wire carries a current I. If the magnetic field a distance d from the wire has a magnitude B, what is the magnitude of the magnetic field at a distance 2d from the wire? A) B/2 B) 4B C)
More information1. Draw in the magnetic field inside each box that would be capable of deflecting the particle along the path shown in each diagram.
Charged Particles in Magnetic Fields 1. Draw in the magnetic field inside each box that would be capable of deflecting the particle along the path shown in each diagram. a b c d 2. a. Three particles with
More informationChapter 29. Magnetic Fields due to Currentss
Chapter 29 Magnetic Fields due to Currentss Refresher: The Magnetic Field Permanent bar magnets have opposite poles on each end, called north and south. Like poles repel; opposites attract. If a magnet
More informationUnit 4 Magnetism Essential Fundamentals of Magnetism 1. Magnetism is a fundamental force.
Unit 4 Magnetism Essential Fundamentals of Magnetism 1. Magnetism is a fundamental force. Early Booklet E.C.: + 1 Unit 4 Hwk. Pts.: / 34 Unit 4 Lab Pts.: / 36 Late, Incomplete, No Work, No Units Fees?
More information4.7 Magnetism and electromagnetism
4.7 Magnetism and electromagnetism Electromagnetic effects are used in a wide variety of devices. Engineers make use of the fact that a magnet moving in a coil can produce electric current and also that
More informationPHY 1214 General Physics II
PHY 1214 General Physics II Lecture 15 Magnetic Fields and Forces June 28, 2005 Weldon J. Wilson Professor of Physics & Engineering Howell 221H wwilson@ucok.edu Lecture Schedule (Weeks 4-6) We are here.
More informationIII.Sources of Magnetic Fields - Ampere s Law - solenoids
Magnetism I. Magnetic Field - units, poles - effect on charge II. Magnetic Force on Current - parallel currents, motors III.Sources of Magnetic Fields - Ampere s Law - solenoids IV.Magnetic Induction -
More informationMODULE 6 ELECTROMAGNETISM MAGNETIC FIELDS MAGNETIC FLUX VISUAL PHYSICS ONLINE
VISUAL PHYSICS ONLINE MODULE 6 ELECTROMAGNETISM MAGNETIC FIELDS MAGNETIC FLUX Magnetic field (-field ): a region of influence where magnetic materials and electric currents are subjected to a magnetic
More informationPhysics 2020 Exam 2 Constants and Formulae
Physics 2020 Exam 2 Constants and Formulae Useful Constants k e = 8.99 10 9 N m 2 /C 2 c = 3.00 10 8 m/s ɛ = 8.85 10 12 C 2 /(N m 2 ) µ = 4π 10 7 T m/a e = 1.602 10 19 C h = 6.626 10 34 J s m p = 1.67
More informationMAGNETIC DEFLECTION. OBJECTIVE: To observe the effect of a magnetic field on an electron beam. To measure the Earth s magnetic field.
MAGNETIC DEFLECTION OBJECTIVE: To observe the effect of a magnetic field on an electron beam. To measure the Earth s magnetic field. THEORY: Moving charges exert forces on one another that are not observed
More informationPhysics 208, Spring 2016 Exam #3
Physics 208, Spring 206 Exam #3 A Name (Last, First): ID #: Section #: You have 75 minutes to complete the exam. Formulae are provided on an attached sheet. You may NOT use any other formula sheet. You
More informationElectromagnetism Notes 1 Magnetic Fields
Electromagnetism Notes 1 Magnetic Fields Magnets can or other magnets. They are able to exert forces on each other without touching because they are surrounded by. Magnetic Flux refers to Areas with many
More informationMagnetic Field Lines for a Loop
Magnetic Field Lines for a Loop Figure (a) shows the magnetic field lines surrounding a current loop Figure (b) shows the field lines in the iron filings Figure (c) compares the field lines to that of
More information1. Write the relation for the force acting on a charge carrier q moving with velocity through a magnetic field in vector notation. Using this relation, deduce the conditions under which this force will
More informationElectromagnetism. Chapter I. Figure 1.1: A schematic diagram of Earth s magnetic field. Sections 20-1, 20-13
Chapter I Electromagnetism Day 1 Magnetism Sections 20-1, 20-13 An investigation of permanent magnets shows that they only attract certain metals specifically those containing iron, or a few other materials,
More informationMagnetic field and magnetic poles
Magnetic field and magnetic poles Magnetic Field B is analogically similar to Electric Field E Electric charges (+ and -)are in analogy to magnetic poles(north:n and South:S). Paramagnetism, Diamagnetism,
More informationReading Question 24.1
Reading Question 24.1 A compass in a magnetic field will line up A. With the north pole pointing in the direction of the magnetic field. B. With the north pole pointing opposite the direction of the magnetic
More information( (Chapter 5)(Magnetism and Matter)
Additional Exercises Question 5.16: Answer the following questions: (a) Why does a paramagnetic sample display greater magnetisation (for the same magnetising field) when cooled? (b) Why is diamagnetism,
More informationMASSCHUSETTS INSTITUTE OF TECHNOLOGY ESG Physics. Problem Set 8 Solution
MASSCHUSETTS INSTITUTE OF TECHNOLOGY ESG Physics 8.0 with Kai Spring 003 Problem : 30- Problem Set 8 Solution Determine the magnetic field (in terms of I, a and b) at the origin due to the current loop
More informationA moving charge produces both electric field and magnetic field and both magnetic field can exert force on it.
Key Concepts A moving charge produces both electric field and magnetic field and both magnetic field can exert force on it. Note: In 1831, Michael Faraday discovered electromagnetic induction when he found
More information