Chapter 19 Section 2 & 3 Magnetic Domains and the Earth GFutch CMS.

Slides:

Advertisements

Similar presentations

Advertisements

 Magnetic field lines: lines of force representing the magnetic field around a magnet  Magnetic pole: the end of the magnet which produces magnetic.

The green magnet and lower red magnet attract each other.

“Opposites attract and likes repel.”. A. Properties of Magnetism Magnetism is the attraction or repulsion of magnetic materials Magnets attract iron and.

Magnetism Chapter 1.

What is Magnetism?.

21.1 Magnets and Magnetic Fields The green magnet and lower red magnet _________ each other. The lower red magnet and the yellow magnet _________each other.

MAGNETISM SPH3U. Permanent Magnets A permanent magnet has two poles: North and South. Like poles repel. Unlike poles attract. These repulsive or attractive.

Strange Stones A young Shepard named Magnes discovered Magnetism when iron nails of his sandal stuck to a stone.

Magnetism & Electricity Production. What is magnetism? Force of attraction or repulsion due to electron arrangement Magnetic forces are the strongest.

MAGNETS AND ELECTROMAGNETISM. MAGNETISM Electric currents or the movement of electrons in an atom will create the property of magnetism in an object What.

Magnetism Chapter 19. Section 1 - What is Magnetism? Magnet – Any material that attracts iron and materials that contain iron. Magnets attract iron and.

Properties of magnets Magnet- material that can exert forces on magnets or other magnetic materials, like iron and steel. Poles- all magnets have 2- North.

Chapter 19 - Magnetism and Electromagnetism. Over 2,000 years ago - an area of Greece known as Magnesia was noted for unusual rocks The rock, allowed.

Magnetism Notes CP Physics Ms. Morrison.

Magnetism What is magnetism? Force of attraction or repulsion due to electron arrangement Magnetic forces are the strongest at the poles Magnets have.

What is Magnetism? Text pages 654 to 659 Key concepts What are the properties of a magnet? How do magnetic poles interact? What is the shape of a magnetic.

Section 16:1 Magnets and Magnetism Notes. Properties of Magnets Any material that attracts iron or things made of iron is called a magnet. Any material.

Magnets have been known for centuries. The Chinese and Greeks knew about the “magical” properties of magnets. The ancient Greeks used a stone substance.

Magnetism What is magnetism? Force of attraction or repulsion due to electron arrangement Magnetic forces are the strongest at the poles Magnets have.

Magnetism Magnetism – the attraction or repulsion of magnetic materials.

Inside a Magnet Chapter 1, Section 2, p14-19.

CHAPTER 18.1 NOTES Magnets and Magnetism. Magnets Magnets are any material that attracts iron or materials containing iron. Poles are the part of the.

Sec. 1-2 Inside a magnet.

Magnets have been known for centuries. The Chinese and Greeks knew about the “magical” properties of magnets. The ancient Greeks used a stone substance.

Magnetism Created By: Mr. Mossey. Magnetism  Force of attraction or repulsion of a magnetic material due to the arrangement of its atoms  Dependant.

Magnetism & Electromagnetism

 Smallest particle of an element – ATOM  Proton- inside nucleus and carries positive charge  Neutron- inside nucleus and carries no charge  Electron-

Inside a Magnet Chapter 1 Section 2 Pages

Magnetic Earth Chapter 1 Section 3 Pages Objective: Understand the Earth’s magnetic field and Compare magnetic and geographic poles. Compass:

Electricity and Magnetism

Table of Contents What Is Magnetism? Inside a Magnet Magnetic Earth.

The Earth’s Magnetic Field

Chapter 19 Magnetism and Electromagnetism. Magnets (19.1) 19.1 ► Magnets contain a mineral called “magnetite” also called “lodestones” ► Magnetism= the.

Magnetism History of Magnetism Magnetism was discovered in Magnesia Greece (which is now Turkey) Magnetism was discovered in Magnesia Greece (which is.

WELCOME BACK MINIONS Warm Up Is On The Board. WARM UP QUESTIONS How can an atom behave like a magnet? How are Magnetic Domains arranged in a magnetic.

Magnetism -the attraction of a magnet for another object -two magnets will either attract or repel each other -if the domain inside a magnet are aligned.

Chapter 8 Section 1. Magnetism Force caused by movement or alignment of charges Force acts at a distance (field force)

Magnets and Magnetism Unit 7, Lesson 4. What are some properties of magnets?  Magnets- describe any material that attracts iron or objects made of iron.

MAGNETISM. MAGNETIC FORCES Magnetic force = force a magnet exerts on another magnet, force weakens with square of distance (twice as far, ¼ as much) Magnetic.

Do Now Given the following objects, a piece of aluminum foil, a nickel, a plastic figure, a piece of wood, a glass vase, and some paper clips, predict.

Magnets and Magnetism Magnet – any material that attracts iron or things made of iron.

Unit 3 Lesson 4 Magnets and Magnetism

Learning Objectives I can explain what magnetic poles and magnetic field are & what causes them to exist. I can tell why some materials are magnetic and.

Unit 3 Lesson 4 Magnets and Magnetism

Earth as a Magnet.

Basics of Magnetism Ch. 1.

DSQ: Which magnets in the picture are attracting, and which are repelling?

Magnets and Magnetism Unit 7, Lesson 4.

Electricity and Magnetism

MAGNETISM CHAPTER 19.

Section 2-1 Magnetism and Magnetic Fields Notes

Magnets and Magnetic Fields

Preview Section 1 Magnets and Magnetism

Unit 6a: Intro to Magnetism

Notes 8-1: Magnetism.

Chapter 19 Magnetism and Electromagnetism

Magnets and Magnetic Fields

The green magnet and lower red magnet attract each other.

Presentation transcript:

Chapter 19 Section 2 & 3 Magnetic Domains and the Earth GFutch CMS

Magnetic Domains Matter is made of atoms. Nucleus = center= protons (positive charge) & neutrons (neutral) Electrons = outside nucleus= negative charge Spinning electrons produce a magnetic field that acts like a tiny magnet.

Most atoms have electron pairs that spin in opposite directions and cancel out the magnetic field. Therefore most matter have weak magnetic properties. When electrons are NOT paired the matter have strong magnetic properties. When magnetic fields of groups of atoms align themselves it is called a magnetic domain. Most domains are misaligned and point in random directions.

Domains MagnetizedUnmagnetized

Magnetic Materials Materials that have domains aligned are magnetic. Materials that show strong magnetic properties are called ferromagnetic. – Ex: Common-nickel, cobalt, gadolinium Rare- samarium and neodymium

Alloys- magnets made form several metals – Ex: Alnico= aluminum, nickel, and cobalt Cheap magnets are made form ferrite

Making & Changing Magnets Magnets can be made, destroyed, or broken. Made Material can be magnetized by putting it in a strong magnetic field or by rubbing it with one pole of a magnet Temporary magnets- materials that magnetize easily but lose magnetism quickly Permanent magnets- materials that are hard to magnetize but stay magnetized for a long time

Destroyed Drop or strike a magnet hard to knock the domains out of alignment Heating a magnet; temperature depends on material All ferromagnetic material can lose its magnetic properties.

Break If you break a magnet, the domains are still aligned. Because the domains are still aligned, the magnet produces a strong magnetic force at the poles and a new South pole is generated.

Earth Earth is a giant magnet – Has a magnetic field – Has 2 magnetic poles Earth’s core is liquid iron & nickel – Circulation of molten material produces a magnetic field Because Earth makes a strong magnetic field, it can make magnets out of ferromagnetic materials – The domains line up with Earth’s magnetic field.

A compass uses a magnetized needle that spins freely; points north When you use a compass you must considered the magnetic declination. – The angle between the geographic pole and the magnetic pole Angle will vary depending on your location – The magnetic declination has changed over time.

Earth’s Record Earth’s magnetic field acts on magnetic material as divergent boundaries produce new rock. – Iron in molten material lines up in the direction of Earth’s magnetic field. – When the rock hardens, the iron is locked in place, leaving a record. – Scientists have studied ocean rocks and discovered that the direction and strength of Earth’s magnetic field has changed over time. – Magnetic reversals (compass points south) have happened many many times. – Why? We don’t know Could be changes in the core

Magnetosphere Earth’s magnetic field that extends into outer space that is shaped by solar winds. Affects movements of electrically charged particles

Van Allen Belts- 2 inner magnetic fields that are shaped like donuts

Most solar wind does not penetrate the magnetic field. When they do, they interact with the atmosphere and produce auroras (Northern Lights).