Electrostatics and Charge. Creating Electric Fields

Similar documents
Electricity Worksheet (p.1) All questions should be answered on your own paper.

Electron Theory of Charge. Electricity. 1. Matter is made of atoms. Refers to the generation of or the possession of electric charge.

Electricity & Magnetism

Electricity & Magnetism. Unit 6

ELECTRICITY. Electric Circuit. What do you already know about it? Do Smarty Demo 5/30/2010. Electric Current. Voltage? Resistance? Current?

Conceptual Physical Science 6 th Edition

Notes on Electricity (Circuits)

What does it mean for an object to be charged? What are charges? What is an atom?

Electric charges. Basics of Electricity

Electric Charges & Current. Chapter 12. Types of electric charge

Section 1 Electric Charge and Force

Review. Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

CLASS X- ELECTRICITY

Unit 2 Electrical Quantities and Ohm s Law

Some differences: Some basic similarities: Charges. Electrons vs. Protons 4/3/15. Chapters 22-25: Electromagnetism!

Electric Charge. Electric Charge ( q ) unbalanced charges positive and negative charges. n Units Coulombs (C)

Capacitance. A different kind of capacitor: Work must be done to charge a capacitor. Capacitors in circuits. Capacitor connected to a battery

Which of these particles has an electrical charge?

Electricity. Chapter 21

Objects usually are charged up through the transfer of electrons from one object to the other.

Notes on Electricity (Circuits)

Read Chapter 7; pages:

4.2.1 Current, potential difference and resistance

Test Review Electricity

EXPERIMENT 12 OHM S LAW

Revision checklist SP10. SP10 Electricity and Circuits. SP10a Electric circuits. SP10b Current and potential difference

Charge The most basic quantity in an electric circuit is the electric charge. Charge is an electrical property of the atomic particles of which matter

Chapter 33 - Electric Fields and Potential. Chapter 34 - Electric Current

4.2.1 Current, potential difference and resistance Standard circuit diagram symbols. Content. Key opportunities for skills development WS 1.

Note on Posted Slides. Flow of Charge. Electricity/Water Analogy: Continuing the Analogy. Electric Current

Electricity MR. BANKS 8 TH GRADE SCIENCE

Electricity

Coulomb s constant k = 9x10 9 N m 2 /C 2

Standard circuit diagram symbols Content Key opportunities for skills development

PSC1341 Chapter 5 Electricity and Magnetism

SNC1DI Unit Review: Static & Current Electricity

16.1 Electrical Current

E40M Charge, Current, Voltage and Electrical Circuits. M. Horowitz, J. Plummer, R. Howe 1

Electric Currents and Simple Circuits

Electric Force and Charges. Conceptual Physics 11 th Edition. Electric Force and Charges

Section 1: Electric Charge and Force

ELECTRICAL Quantities

Lecture January, 2011

Electricity. Part 1: Static Electricity

Physics Module Form 5 Chapter 2- Electricity GCKL 2011 CHARGE AND ELECTRIC CURRENT

Dynamic Electricity. All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison

TOPIC 4 STATIC ELECTRICITY

Theme 5: Electricity in the Home

Electric Force and Charge. Electric Force and Charge. Electric Force and Charge. Electric Force and Charge. Electric Force and Charge

Electricity Courseware Instructions

Capacitor Action. 3. Capacitor Action Theory Support. Electronics - AC Circuits

Electric Current & DC Circuits

A Review of Circuitry

Physics 7B-1 (A/B) Professor Cebra. Winter 2010 Lecture 2. Simple Circuits. Slide 1 of 20

Electric Charge. Labs, Activities & Demonstrations: Notes: Unit: Electricity & Magnetism NGSS Standards: N/A

Electrical Forces arise from particles in atoms.

Electromagnetism Checklist

Name: Block: Date: NNHS Introductory Physics: MCAS Review Packet #4 Introductory Physics, High School Learning Standards for a Full First-Year Course

Engineering Fundamentals and Problem Solving, 6e

Electroscope Used to are transferred to the and Foil becomes and

Greek Letter Omega Ω = Ohm (Volts per Ampere)

SECTION 3 BASIC AUTOMATIC CONTROLS UNIT 12 BASIC ELECTRICITY AND MAGNETISM

HIGH SCHOOL SCIENCE. Physical Science 7: Electricity & Magnetism

d) (6) If a third charge q = 2.0 µc is now placed 12.0 cm to the left of Q 1, what magnitude electric force will it experience?

the electrical nature of matter is inherent in its atomic structure E & M atoms are made up of p+, n, and e- the nucleus has p+ and n

ELECTRICITY & MAGNETISM CHAPTER 8

SIMPLE D.C. CIRCUITS AND MEASUREMENTS Background

CHARGE AND ELECTRIC CURRENT:

5. ELECTRIC CURRENTS

Name: Class: Date: 1. Friction can result in the transfer of protons from one object to another as the objects rub against each other.

NAME PERIOD GUIDESHEET UNIT 2 WORK SUBUNIT - WORK IN ELECTRICAL SYSTEMS ACTIVITY LESSON DESCRIPTION SCORE/POINTS

Bell Ringer: Define to the best of your ability the definition of:

Electromagnetism Unit- Electrostatics Sub-Unit

Properties of Electric Charge

Note on Posted Slides

9. Which of the following is the correct relationship among power, current, and voltage?. a. P = I/V c. P = I x V b. V = P x I d.

12/2/2018. Monday 12/17. Electric Charge and Electric Field

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Look over Chapter 26 sections 1-7 Examples 3, 7. Look over Chapter 18 sections 1-5, 8 over examples 1, 2, 5, 8, 9,

AP Physics C. Electric Circuits III.C

Electric Circuits. June 12, 2013

Electricity. Lily, Laura, Lynette, Elyse, Gillian, Emma, Hailey Period 2. onedio.com

6. In a dry cell electrical energy is obtained due to the conversion of:

Introduction to Electrical Theory and DC Circuits

What is electricity? Charges that could be either positive or negative and that they could be transferred from one object to another.

ELECTRICITY. Chapter ELECTRIC CHARGE & FORCE

In this unit, we will examine the movement of electrons, which we call CURRENT ELECTRICITY.

Protons = Charge Electrons = Charge Neutrons = Charge. When Protons = Electrons, atoms are said to be ELECTRICALLY NEUTRAL (no net charge)

1) Two lightbulbs, one rated 30 W at 120 V and another rated 40 W at 120 V, are arranged in two different circuits.

Electricity. Year 10 Science

STUDY GUIDE CHAPTER 5 ELECTRICITY AND MAGNETISM 1) ASSOCIATE ELEMENTARY PARTICLES WITH THEIR ELECTRICAL CHARGE

B: Know Circuit Vocabulary: Multiple Choice Level 1 Prerequisites: None Points to: Know Circuit Vocabulary (Short Answer)

Physics 1214 Chapter 19: Current, Resistance, and Direct-Current Circuits

CIRCUITS: Series & Parallel

Unit 3 BLM Answers UNIT 3 BLM 3-46

Electric Charge. Labs, Activities & Demonstrations: Notes: Unit: Electricity & Magnetism NGSS Standards: N/A

Electricity. Prepared by Juan Blázquez, Alissa Gildemann. Electric charge is a property of all objects. It is responsible for electrical phenomena.

Electric charge is conserved the arithmetic sum of the total charge cannot change in any interaction.

V R I = UNIT V: Electricity and Magnetism Chapters Chapter 34: Electric Current. volt ohm. voltage. current = I. The Flow of Charge (34.

Transcription:

Electrostatics and Charge Creating Electric Fields

Electric Charges Recall that all matter is made of atoms. Neutral atoms can acquire a charge in several different ways, all of which require movement of electrons (-). If an object gains electrons, it is negatively charged. If an object loses electrons, it is positively charged.

The transfer of electric charges occurs in 3 ways: 1. Friction electrons transferred by rubbing. 2. Contact electrons are transferred by direct contact. 3. Induction the charging of an object without direct contact.

Electric Fields Once an object has a charge, it can influence the behavior of stuff around it. This influence is due to an electric field around a charged object.

Behavior of Charges The rules that govern charged particles say, Like charges REPEL and opposite charges ATTRACT.

Movement of Charge A charge traditionally moves away from positive (+) toward something negatively charged (-). The electric field lines around a charged particle indicate strength in that area. These lines are vectors.

Static Electricity Static electricity is a buildup of charge on an object. This charge will not MOVE from one place to another in a constant, sustainable stream so it is stationary for all practical purposes. F k q q 1 d 2 2

Van de Graaff Generator In 1929 Robert Jemison Van de Graaff invented the Van de Graaff generator, which was a way to produce high voltages and accelerate particles. Demos: 1 person hair Pie plates & punches Class conductivity

Your turn to Practice Please do Ch 20 Rev p 477 #s 1,4,7 Pg 478 #s 14,17,18,20,21,25, & 26

From Static to Electric current You cannot rub a balloon on your head and then plug in your radio to run off the charge on your hair darn!!!! Electric current is the flow of electric charge through a conductor either in one direction (DC) or alternating directions (AC).

Pushing charge along Just as water will not flow in a pipe unless one end is at a different gravitational potential than the other, electric charge will not flow unless there is a difference in Electric potential across a conducting path. Electric potential= electrical potential energy / charge. 1volt = 1 joule / 1 Coulomb A coulomb is the unit of charge.

Moving Charge Charged objects seek out the lowest possible electric potential. Electric current is the flow of electric charge. The unit of current is the ampere or amp (A). One amp means one coulomb of charge flows per second.

Making Charge move Charges only move when there is a potential difference between two points. Anything that provides this potential difference is a voltage source. Voltage provides the electric pressure that moves the charges. Voltage may also be called electromotive force (emf).

Obstacles The flow of electric current can be interrupted by the object it passes through. This is called resistance. Resistance is measured in ohms ( ). Length & thickness of a wire can effect its resistance. The material the wire is made of, and it s temperature will also determine the resistance.

Resistors Resistors dissipate energy by heat. The material of the resistor is conductive, but not as conductive as the wire used to connect circuit components. The symbol for a resistor is: 15

Capacitors Capacitors store energy as an electric field bound between the plates of the capacitor. The charge polarity of the capacitor will match the polarity of the circuit power source. Once a capacitor is charged, no additional current will flow through. The symbol for a capacitor is: 50 F

Look inside a Resistor

Resistor in a Circuit i

Capacitor in a Circuit EE E

Ohm s Law current voltage resistance V 1volt 1amp 1 ohm I R

Series Circuit When circuit elements are one after another, it is called a series circuit. In a series circuit, the same current flows through every element.

Series Circuit Math Resistance in series adds. 8 4 12 R 1 R 2 R eq R eq = R 1 + R 2

Series Circuit Math II The voltage drop across each element in a series circuit adds to up to the voltage of the source. 8 4 12V V drop = I * R 12V = 8V + 4V (V 8Ω ) = 1A * 8Ω = 8V (V 4Ω ) = 1A * 4Ω = 4V

Parallel Circuit When circuit elements are side-by-side, it is called a parallel circuit. The current splits in a parallel circuit.

Parallel Circuit Math Resistance in parallel adds by inverses. 2.5 R eq 5 5 1 1 1 R eq = R1 + R 2

Parallel Circuit Math II The voltage drop across parallel branches is the same. The current is greatest in the branch with the least resistance.

Your turn to Practice Please do CD worksheet 35-1 & 35-2

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback