Electric Current and Direct- Current Circuits

Slides:

Advertisements

Similar presentations

Electricity. Energy Is the ability to do work Comes in 2 main types (but many forms) Potential energy is stored energy like gravity, chemical, nuclear.

Advertisements

Electricity Technical Stuff. Electric Field An uneven distribution of charge produces an “ Electric Field” We can deduce this by an electric potential.

Electric Currents and Resistance

Electricity Chapter 34.

Chapter 17 Current and Resistance. Electric Current Let us look at the charges flowing perpendicularly to a surface of area A The electric current is.

© 2007 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Electric and Magnetic Phenomena

Science 9 Electricity Review Ohm’s Law Circuits.

II. Electric current 1. Definition Units: [ I ] = 1A = 1 C/s Conventional current Electron flow Example: electrons passed through the electric conductor.

Electric Current and Direct-Current Circuits

Electric current and direct-current circuits A flow of electric charge is called an electric current.

CHAPTER 19. How does the energy generated by wind farms get to people’s houses to power their appliances?

CLASS :- X MADE BY :- MANAS MAHAJAN

RESISTANCE – OHM’S LAW Lesson 5. Resistance  The amount of current flow in a circuit, and the amount of energy transferred to any useful device, depends.

College Physics, 7th Edition

Electricity Foundations of Physics. Electricity The movement of charge from one place to another Requires energy to move the charge Also requires conductors.

Energy Review. The unit for kinetic energy. Joule.

Electricity Current Electricity.

Current Electricity.

Electricity and Electrical Circuits. Chapter Sections O 1 - Electrical Circuits O 2 - Current and Voltage O 3 - Resistance and Ohm’s Law.

Circuits & Electronics

Lecture Outline Chapter 21 Physics, 4th Edition James S. Walker

Current Electricity Electric Current Circuit – continuous conducting path between terminals of a battery (or other source of EMF) Electric Current.

SPH3U/SPH4C Findlay ELECTRIC CIRCUITS Students will: Solve problems involving current, charge and time. Solve problems relating potential difference to.

Solve for Z ABCDE HKMNP STVX WYZ =. Chapter 22 Current Electricity.

Current Electricity. Producing Current Current: Flow of charged particles Cell: Source of conversion of chemicals into electric energy. Types of Cells:

energypushingDef : the energy or pushing force available to move electrons through a circuit Unit: volt (V) Symbol: V Measured using an instrument called.

Unit 7: Electricity and Magnetism

FCI. Direct Current Circuits: 3-1 EMF 3-2 Resistance in series and parallel. 3-3 Rc circuit 3-4 Electrical instruments FCI.

Do Now What work is required to move 7 coulombs of charge through a potential difference of 3 volts?

Chapter 18 Electric Currents The Electric Battery Volta discovered that electricity could be created if dissimilar metals were connected by a conductive.

10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt.

Electric Circuits Level 1 Physics.

Current Electricity. Electrons P n nucleus e- Flow of Electrons (Path) e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- e-e- - + Electrons Flow Conventional Current.

Chapter 17 Current and Resistance. Electric Current Let us look at the charges flowing perpendicularly to a surface of area A The electric current is.

Dr. Jie ZouPHY Chapter 21 Electric Current and Direct- Current Circuits.

Current Electricity. How is current produced? When a high potential is connected by a conductive material to a low potential. When a high potential is.

CURRENT ELECTRICITY Characteristics of Current Electricity.

Ch 181 Chapter 18 Electric Currents. Ch 182 Simple Electric Cell Sulfuric acid Zn ______ Carbon Electrode (+) Zn Electrode (-) Two dissimilar.

Electricity What is it and how does it work?. Some definitions to start with An electrical current is caused by the flow of negatively charged electrons.

Part 1 Current & Energy Transfer Electric Current.

Electrical circuits. Intensity (I): Number of charges that flow past a given point every second. Measured in Amperes (A). Wires that carry the electrical.

CLASS :- X MADE BY :- MANAS MAHAJAN SCHOOL :- K.V. GANESHKHIND PUNE-7

Electrical Resistance Electrical resistance is a measure of how difficult it is for electricity (electrons) to flow through a material. The units of resistance.

Chapter 22 Current Electricity.

Chapter 20 Electric Current and Resistance. Units of Chapter 20 Batteries and Direct Current Current and Drift Velocity Resistance and Ohm’s Law Electric.

Electric Current Chapter 34 A charged object has charges with potential energy. A difference in potential energy causes the charges to flow from places.

Unit 8 : Part 1 Electric Current and Resistance. Outline Batteries and Direct Current Current and Drift Velocity Resistance and Ohm’s Law Electric Power.

Electric Currents. The Electric Battery Electric Cell.

Bellwork (2/18)  [ none this week – Happy Rodeo Break ]

Electric Current and Circuits Ch. 18. Electric Current A net flow of charge Variable = I Unit = Ampere (A) I = Δq/Δt Conventional current is the direction.

Electricity Sections 2 and 3. Electric Energy Cells/Batteries - Cell - device that produces an electrical current by converting chemical energy into electrical.

Chapter 20 Electric Current and Ohm’s law. Chapter 20 Electric Current and circuit Resistance and Resistivity Ohm’s Law Energy and Power in Electric Circuits.

Electric Circuits and Electric Current  A flashlight, an electric toaster, and a car’s starting motor all involve electric circuits and electric current.

Ohm’s Law PSSA Requirement Unit 9 Honors Physics.

The flow of charged particles charged particles ; through a conducting metal.

Introduction to circuits, Coulomb Law.

through a conducting metal

II. Electric current 1. Definition a) Conventional current Electron

Current electricity.

Current Electricity.

Electricity 2 objectives.

ELECTRICAL CIRCUIT BOARDS

Science 9 Electricity Review.

THE CHARACTERISTICS OF ELECTRICITY  Potential Difference

CIRCUITS Current Resistance Ohms Law Power Series Circuits

Science 9 Electricity Review.

Chapters 18 & 19 What is the definition of electric potential?

Presentation transcript:

Electric Current and Direct- Current Circuits Chapter 22, 23 Electric Current and Direct- Current Circuits

Units of Chapter 22 and 23 Electric Current and circuit Resistance and Ohm’s Law Energy and Power in Electric Circuits Resistors in Series and Parallel Ammeters and Voltmeters

What would happen? More electric potential difference - more charges move Video - electric current animation 3 3

Electric current The flow of charge particle from one place to another. The electric current is defined the rate of flow of electric charge. 4 4

What do you need to light a bulb? 5 5

Electric circuits - A closed path through which charge can flow, returning to its starting point. Conventional current – the flow of + charge 3

Electric Current The direction of current flow – from the positive terminal to the negative one.

Electric Current A battery uses chemical reactions to produce a potential difference between its terminals. It causes current to flow through the flashlight bulb similar to the way the person lifting the water causes the water to flow through the paddle wheel.

Electric Power Power – the rate of energy A generator transfers kinetic energy to electric energy each seconds. 4

The electric power The Electric Power – the product of the current and the potential difference. 6

Example A 120 V motor operates at 13 A. Determine the power and the energy used in one hour of operation. Page 594 # 1-5 10

Resistance and Ohm’s Law Ohm's law states that the current through a conductor between two points is directly proportional to the potential difference across the two points.

Resistance and Ohm’s Law Resistance – the property determining how much current will flow. Solving for the resistance, we find The units of resistance, volts per ampere, are called ohms:

Check Your Understanding Which of the following will cause the current through an electrical circuit to decrease? Choose all that apply. a. decrease the voltage b. decrease the resistance c. increase the voltage d. increase the resistance 14

Check Your Understanding If the resistance of a circuit were tripled, then the current through the circuit would be ____. a. one-third as much b. three times as much c. unchanged d. ... nonsense! There would be no way to make such a prediction. 15

Resistance and Ohm’s Law Two wires of the same length and diameter will have different resistances if they are made of different materials. This property of a material is called the resistivity.

Resistance and Ohm’s Law The difference between insulators, semiconductors, and conductors can be clearly seen in their resistivities:

Use the Ohm's law equation to determine the missing values in the following circuits. 18

Some circuit symbols used in schematic diagrams are shown below. 19

Energy and Power in Electric Circuits In materials for which Ohm’s law holds, the power can also be written: This power mostly becomes heat inside the resistive material.

Energy and Power in Electric Circuits When the electric company sends you a bill, your usage is quoted in kilowatt-hours (kWh). They are charging you for energy use, and kWh are a measure of energy.

Ammeters and Voltmeters An ammeter is a device for measuring current, and a voltmeter measures voltages. The current in the circuit must flow through the ammeter; therefore the ammeter should have as low a resistance as possible, for the least disturbance.

Ammeters and Voltmeters A voltmeter measures the potential drop between two points in a circuit. It therefore is connected in parallel; in order to minimize the effect on the circuit, it should have as large a resistance as possible.

Summary Electric current is the flow of electric charge. Unit: ampere 1 A = 1 C/s A battery uses chemical reactions to maintain a potential difference between its terminals. The potential difference between battery terminals in ideal conditions is the emf. Work done by battery moving charge around circuit:

Summary Direction of current is the direction positive charges would move. Ohm’s law: Relation of resistance to resistivity: Resistivity generally increases with temperature. The resistance of a superconductor drops suddenly to zero at the critical temperature, TC.

Summary Ammeter: measures current. Is connected in series. Resistance should be as small as possible. Voltmeter: measures voltage. Is connected in parallel. Resistance should be as large as possible.