When two identical socks are removed from a clothes dryer, they will usually 1) repel each other 2) cling to each other 3) no way to predictl.

Slides:

Advertisements

Similar presentations

Chapter 12: Electrostatics

Advertisements

Initially, each object is neutral (i.e. each has = numbers of protons & electrons)

Electric Forces and Fields

Atoms are composed of Electrons – fundamental negatively charged (-) particle of matter (-1.6 x10-19C) 2. Protons – fundamental positively charged (+)

 Static electricity is what makes:  clothes stick together when they come out of a dryer  gives you a shock with you touch a metal doorknob.

Rubbing a plastic ruler with wool produces a new force of attraction between the ruler and bits of paper. When the ruler is brought close to bits of paper,

Charge & Coulomb’s Law AP Physics C.

Electricity. Electrical Charge and Forces  Electrical charge is the property that causes protons and electrons to attract or repel one another.  There.

L 24 Electricity & Magnetism [1]

PHY132 Introduction to Physics II Class 8 – Outline: Ch. 25, sections Developing a Charge Model Electric Charge Insulators and Conductors Coulomb's.

Electrostatics Deals with electric charges at rest, or static electricity on the surface of an object.

The Nature of Electricity

CHAPTER-21 Electric Charges. CHAPTER-21 Electric Charges Topics to be covered:  Types of electric charge  Forces among two charges (Coulomb’s law) 

Ch 18: Electric Force & Electric Fields. The Origin of Electricity The electrical nature of matter comes from atomic structure Nucleus – made up of protons.

Labs and recitations begin this week! One problem from among the assigned homework each week will appear in recitation as a quiz! Your top 10 quizzes form.

Charging by Contact You can charge a neutral object by rubbing it with a different material (friction). 2.Sometimes, you can charge an object just.

Electrostatics (Static Electricity)

STATIC ELECTRICITY I: Particle Model of Electricity

CP Physics Ms. Morrison. Created by the attraction and repulsion of charged particles (ions) Part of electromagnetic force Electrical Forces.

1 L 24 Electricity & Magnetism [1] static electricity Why do I get a shock when I walk across the rug and touch the door knob? Why do socks stick to my.

Electrostatics. Electricity Comes from Greek word elektron which means “amber” because it was noticed that when amber was rubbed with cloth it attracts.

Electricity Electrostatics and Fields. Electric Charges electricity comes from the Greek word elektron, which means amber. Amber is petrified tree resin.

Electric Charge Chapter 21 Week-1 Chapter 21 Electric Charge In this chapter we will introduce a new property of matter known as “electric charge” (symbol.

Electric Charges Electricity Unit.

Electric Fields and Forces IB Physics. Electric Charge “Charge” is a property of subatomic particles. Facts about charge: There are 2 types: positive.

Chapter 32 Electrostatics.

Electricity Static Electricity.

Chapter 17 Review. 1. When silk is rubbed onto a glass rod, this leaves a _______________ charge on the glass rod. 1. positive 2. negative 3. neutral.

Charging by Contact. Hat hair and clingy cloths from the dryer are two everyday examples of static electricity. The static electricity is the result of.

Some Thought Questions: Why do some TVs build up so much dust very quickly? Why does saran wrap stick to your bowl when it is just plastic and nothing.

Static Electricity Chapter 16 and 24. Review: The 4 Fundamental Forces Strong Force – The force that is involved in holding the nucleus of an atom together.

What Gives an Electric Charge? An imbalance of protons and electrons. An imbalance of protons and electrons. Neutral objects have equal numbers of electrons.

Warm-up Like charges __________ and unlike charges __________.

The Cosmic Ray Observatory Project High Energy Physics Group The University of Nebraska-Lincoln A History of Cosmic Rays “If we knew what we were doing,

Pick up a copy of the notes from the front Think about this question and be ready to answer if called on… – How are gravity and electrostatic force similar?

Electric Fields Review of gravitation Review of gravitation Gravitational field strength g gives the ratio of force to mass. Gravitational field strength.

Lesson #15 Topic: Electrostatics Objectives: (After this class I will be able to) 1. Observe an example of electrostatics 2. Define and state the units.

Electricity Chapter 17 Section 1 (pages ).

1 L 24 Electricity & Magnetism [1] static electricity static electricity Why do I get a shock when I walk across the rug and touch the door knob? Why.

CHAPTER-21 Electric Charges. CHAPTER-21 Electric Charges Topics to be covered:  Types of electric charge  Forces among two charges (Coulomb’s law) 

CONTENT CONCEPTS PROBLEM SOLVE -know facts -understand principals -figure things out.

+ An electron and a proton are set free, near each other, deep in outer space. The electron moves towards the proton with 1) constant velocity ( v  constant.

L 24 Electricity & Magnetism [1] static electricity Why do I get a shock when I walk across the rug and touch the door knob? Why do socks stick to my.

ELECTRIC CHARGES AND FORCES. ELECTRIC CHARGE “Charge” is a property of subatomic particles. Facts about charge: There are 2 types basically, positive.

 Effect static electricity charging  Protons (p + ) › in nucleus (center) of an atom › positively charged  Neutrons (n 0 ) › in nucleus (center) of.

Electric Charge and Force Chapter 17.1 Notes. Electric Charge Electric charge is an electrical property of matter An object can have a negative charge,

Static Electricity What are the fundamental particles and how do they interact?

Chapter 20 Electrical Charge. Electrostatics The study of charge that can be –Collected –Held in one place Charged objects exert forces –Attractive (“unlike”

Electrostatics Charge & Coulomb’s Law. Electrostatics Study of electrical charges that can be collected and held in one place.

L 24 Electricity & Magnetism [1]

Static Electricity Atoms (and groups of atoms) have an electric charge when they have an unequal number of electrons and protons Recall that atoms are.

Electrostatics (Static Electricity)

PHY 102: Lecture 1A 1.1 Scotch Tape Experiment

Chapter 15 Outline Honors Physics

L 24 Electricity & Magnetism [1]

Exploring the Nature of Static Electricity

Electrostatics: Electricity at Rest

Chapter-18 Electric Forces and Electric Fields

L 24 Electricity & Magnetism [1]

Electrostatics Deals with electric charges at rest, or static electricity on the surface of an object.

Electric Charge and Static Electricity

Electrostatics.

Coulomb’s Law.

Charging by Contact You can charge a neutral object by rubbing it with a different material (friction). Sometimes, you can charge an object just by touching.

This section deals with how a stationary charge is formed.

L 24 Electricity & Magnetism [1]

Electrostatics (Electricity at rest).

Charging by Contact You can charge a neutral object by rubbing it with a different material (friction). Sometimes, you can charge an object just by touching.

Aim: How do we explain electric charge?

L 24 Electricity & Magnetism [1]

Presentation transcript:

When two identical socks are removed from a clothes dryer, they will usually 1) repel each other 2) cling to each other 3) no way to predictl

Moving charge by friction Some atoms/molecules attract electrons more strongly than others. Affinity: a natural liking or sympathy far: weaker attraction close: stronger attraction electron jumps Electron Affinity rabbit’s fur glass wool silk rubber hard plastic F  1r21r2 Different materials have different electrons affinities

fur plastic rod When fur is rubbed on a plastic rod, both acquire an equal but opposite charge. If the fur merely rests on top of the plastic, each will acquire equal and opposite charges. 1) True. 2) False. Friction is necessary to provide enough heat (energy) for electrons to jump from the fur to the plastic.

True. It is not necessary to rub the fur on the rod. If they touch with no motion between them, electrons will still jump from the plastic to the fur. Why is the fur rubbed? Because “contact” is made by a bunch of random, jagged edges. (Remember friction!) In the figure above, there are only about three contact points where the atoms are close enough for the electrons to make the jump. If instead the fur and plastic are rubbed, many, many more atoms come into contact with each other and more electrons can make the big move. The plastic and fur thus acquire more charge, which makes it more noticeable. plastic fur Far apart: electrons stay with their own atoms  both atoms neutral Close: difference in electron affinity. Electron jumps. Move apart:electron stays with the atom it jumped to  both atoms charged electron Note: only contact between atoms is necessary. The heat of friction plays no role.

+ An electron and a proton are set free, near each other, deep in outer space. The electron moves towards the proton with 1) constant velocity ( v  constant ) 2) increasing velocity but constant acceleration ( a  constant ) 3) increasing velocity and increasing acceleration

+ An electron and a proton are set free, near each other, deep in outer space. The electron moves towards the proton with? There is a net force on the electron due to the proton’s charge, so the electron accelerates (1 is out). As the electron moves closer to the proton, the force it experiences grows stronger (Coulomb’s Law holds F  1/r 2 ). If the force becomes stronger, and the mass does not change, then Newton’s Second Law (F = ma or a = F/m) says that the acceleration increases. The answer must be (3).

+ An electron and a proton are set free, near each other, deep in outer space. What about the proton?