Presentation is loading. Please wait.

Presentation is loading. Please wait.

ELECTROSTATICS Electric Force. Whiteboard Particle Model (remember sticky tape lab?) How you can make a balloon stick on the wall? What is occurring on.

Published byHomer Franklin Modified over 8 years ago

Similar presentations

Presentation on theme: "ELECTROSTATICS Electric Force. Whiteboard Particle Model (remember sticky tape lab?) How you can make a balloon stick on the wall? What is occurring on."— Presentation transcript:

1 ELECTROSTATICS Electric Force

2 Whiteboard Particle Model (remember sticky tape lab?) How you can make a balloon stick on the wall? What is occurring on the atomic level that lets you do this?

3 The atom The positive charge cannot move The atom has positive charge in the nucleus, located in the protons. The positive charge cannot move from the atom unless there is a nuclear reaction. Electrons can move The atom has negative charge in the electron cloud on the outside of the atom. Electrons can move from atom to atom without all that much difficulty. You charge the balloon by rubbing it on hair or on a sweater, and the balloon becomes negative. How can it stick on a neutral wall?

4 Whiteboard Particle Model (remember sticky tape lab?) 1. How you can make a balloon stick on the wall? 1. What is occurring on the atomic level that lets you do this? Wall

5 Molecules in the wall become polarized. Electrons move away from the surface repelled by the excess negative charge on the balloon. This creates a positive surface that the balloon can stick to + - Wall

6 What is making them repel? A force

7 Whiteboard Particle Model What happens to the vanes of the electroscope when you bring a negatively charged object near it? What is occurring on the atomic level that makes the vanes do this? Pole Vanes

8 Electrons are repelled by the negative charge and are conducted into the vanes. The vanes become negative and repulsive.

9 What is making them repel? A force

10 If Object is Positive (no whiteboard) What happens to the vanes? Pole Vanes

11 If Object is Positive (no whiteboard)

12 What is making them repel? A force

13 Coulomb’s Law Coulomb’s law tells us how the magnitude of the force between two particles varies with their charge and with the distance between them. k = 8.99  10 9 N m 2 / C 2 q 1, q 2 are charges (C) r is distance between the charges (m) F is force (N)

14 What direction are the forces on C? +-- AB C Net Force is in what direction? To the left

Download ppt "ELECTROSTATICS Electric Force. Whiteboard Particle Model (remember sticky tape lab?) How you can make a balloon stick on the wall? What is occurring on."

Similar presentations

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

Atoms are composed of Electrons – fundamental negatively charged (-) particle of matter (-1.6 x10-19C) 2. Protons – fundamental positively charged (+)
PS-6.5 How can objects acquire a static electric charge through friction, induction, and conduction.

PS-6.5 How can objects acquire a static electric charge through friction, induction, and conduction.
30-Apr-15 Physics 1 (Garcia) SJSU Chapter 22 Electrostatics Part V: Electricity & Magnetism.

30-Apr-15 Physics 1 (Garcia) SJSU Chapter 22 Electrostatics Part V: Electricity & Magnetism.
Introduction to Electrostatics Coulomb’s Law and Methods of Charging.

Introduction to Electrostatics Coulomb’s Law and Methods of Charging.
Charge and Polarization

Charge and Polarization
Electrical Nature of Matter Grade Nine Science. Question to Ponder What happens when you rub a balloon against your hair? Does this action create electric.

Electrical Nature of Matter Grade Nine Science. Question to Ponder What happens when you rub a balloon against your hair? Does this action create electric.
Charge & Coulomb’s Law AP Physics C.

Charge & Coulomb’s Law AP Physics C.
Electrostatics Electrostatics – electricity that does not move or is static All electricity comes from electrical forces from atoms -Atoms contain protons.

Electrostatics Electrostatics – electricity that does not move or is static All electricity comes from electrical forces from atoms -Atoms contain protons.
Electrostatics 1 Personal Ad Electron rich…seeks Electron poor for bonding, conducting, and long term relationship. Resistance a plus.

Electrostatics 1 Personal Ad Electron rich…seeks Electron poor for bonding, conducting, and long term relationship. Resistance a plus.
Lecture 4 Electric Charge Coulomb’s Law Gecko Electric charge.

Lecture 4 Electric Charge Coulomb’s Law Gecko Electric charge.
Electrostatics Deals with electric charges at rest, or static electricity on the surface of an object.

Electrostatics Deals with electric charges at rest, or static electricity on the surface of an object.
Grab your lab notebook. Be seated and silent when the bell rings.

Grab your lab notebook. Be seated and silent when the bell rings.
Electrostatics Review. What happens when a rubber rod is rubbed with a piece of fur, giving the rod a negative charge? 1.Protons are removed from the.

Electrostatics Review. What happens when a rubber rod is rubbed with a piece of fur, giving the rod a negative charge? 1.Protons are removed from the.
Aim: How can we explain electrostatics? Do Now: Why is it that when you walk on a carpeted surface with socks on, this happens:

Aim: How can we explain electrostatics? Do Now: Why is it that when you walk on a carpeted surface with socks on, this happens:
Electrostatics Electrostatics The study of electrical charges that can be collected and held in one place. The study of electrical charges that can be.

Electrostatics Electrostatics The study of electrical charges that can be collected and held in one place. The study of electrical charges that can be.
What is the Electricity ? -Electricity caused by electrons move. - Electric charge consist of positive charge (proton) and negative charge ( electron)

What is the Electricity ? -Electricity caused by electrons move. - Electric charge consist of positive charge (proton) and negative charge ( electron)
Chapter 21, Electric Charge, and electric Field. Charles Allison © 2000 21.1 Electric Charge, q or Q Charge comes in two types 1e = 1.6x10 -19 Coulombs.

Chapter 21, Electric Charge, and electric Field. Charles Allison © Electric Charge, q or Q Charge comes in two types 1e = 1.6x Coulombs.
Who’s right? The atom is negative because the electrons are on the outside The atom is neutral because the opposite charges balance each other out Taking.

Who’s right? The atom is negative because the electrons are on the outside The atom is neutral because the opposite charges balance each other out Taking.
Electrostatics (Static Electricity)

Electrostatics (Static Electricity)
Ever been shocked? What were you doing when it happened?

Ever been shocked? What were you doing when it happened?

Similar presentations

Ads by Google