Voltage in Electrical Systems. Unit 4 Voltage Pages 71-76 (leave a space in between)  Voltage source  Conductors  Control element  Electrical appliance.

Slides:

Advertisements

Similar presentations

Electrical Force Unit 1.3.

Advertisements

PT UNIT 1 Subunit 3.

Define electric potential, or voltage. Differentiate between AC and DC. Identify the most common source of DC voltage. Describe how to connect.

Electric Circuits And Voltage

Alternating Current Direct Current. Components of Electrical System Voltage source = generator/batteries Conductor = wires Control Element = switch Load.

CIRCUIT TYPES PHYSICS UNIT E. CIRCUITS Need a source of energy, a pathway for electrons, and something that uses energy. Ex) Sources: Battery, 120 V plug,

ELECTRICITY NOTES. ELECTRICITY ELECTRICITY: form of energy that occurs when electrons move from place to place Electricity can form whenever (e - ) electrons.

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

10.2: Electricity and Electric Circuits. Static vs. Current Electricity Static Electricity: charges build up in one location Current Electricity: electrons.

The Control of Electricity in Circuits 10.2, 10.3 and 10.5.

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

P5 – Electric Circuits. Static Electricity When two objects are rubbed together and become charged, electrons are transferred from one object to the other.

Things you need to know… About the electricity and magnetism Unit Test.

Voltage in Electrical Systems Objectives Define electric potential, or voltage. Differentiate between AC and DC. Identify the most common source.

A Unit 4 Review. When an object is charged, it has an imbalance of electrons. Static electricity is another term used to describe this. You can charge.

Electricity and Circuits Electrical energy or electricity is produced by the movement and distribution of these charged particles 1.

17.2 Current pages Let’s get an introduction!

NATURAL SCIENCES GRADE 5 Energy & Change. NATURAL SCIENCES GRADE 5.

Voltage in Electrical Systems. Unit 4 Voltage Pages  Voltage source  Conductors  Control element  Electrical appliance  Electrical loads 

Electric Current 6.2.

1 DC ELECTRICAL CIRCUITS ELECTRICAL FORCE. 2 DC ELECTRICAL CIRCUITS Current will not flow in a circuit unless an external force is applied. A popular.

10.7 Cells in Series and Parallel (page 310). A “dry cell” is another term for a battery. Dry cells can be put together in two ways to change the energy.

Electric Potential and Electrochemical Cells 10.3, 10.5.

Physics 106 Lesson #10 Circuits Dr. Andrew Tomasch 2405 Randall Lab

Electrical Circuits. A path where electric charges move along (through wires).

ELECTRICAL CIRCUITS.

Electric Current & Circuits. What is the difference between static electricity and current electricity ? Static electricity is stationary or collects.

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

Electric Current and Resistance Physics. Potential Difference  Charges can “lose” potential energy by moving from a location at high potential (voltage)

Electric Current and Circuits Lesson 3. Electric Current Electrons in a static state have energy, but are far more useful when they are made to transfer.

Review of Fourth Grade STARTING WITH ELECTRICITY.

Electricity is a form of energy Electricity can exert a force on other objects Think of your Laws of Charge activity Electricity is when electrons flow.

Electrical Potential When charges are within an electric field an electrical potential difference is created. Volt – unit of measurement for potential.

Electrical Circuits Bobbi Martin, Las Vegas, NV. What is electricity?  It is a form of energy that is created from the movement of electrons of atoms.

Current Electricity and Electric Circuits. Static vs. Current Electricity Static Electricity: charges build up in one location Current Electricity: electrons.

Current Electricity 1. What is Electric Current? Electric current is the flow of electricity through a conductor. The current is caused by the movement.

Ch Electricity II. Electric Current.

Basic Electronic Components.  An electronic component is any basic discrete device or physical entity in an electronic system used to affect electrons.

10.3 Electric Potential. Electric Potential Electric potential refers to the amount of energy that electrons possess in a circuit.

Natural Sciences and Technology Grade 5

Can you get the bulb to work? Each of you will get one bulb, one wire, and one battery. Your goal is to get the bulb to light. Easy right? When you find.

S.MORRIS 2006 Currents CIRCUITS More free powerpoints at

a path along which electrons flow must have no breaks in the path to work 2 types: –closed (no breaks) –open (break, causes the device to shut off - switch)

Ch. 1.3 Voltage in Electrical Systems. Gravitational and Electrical Force Gravitational force and electrical force are two universal forces in nature.

8.1 ELECTRIC POTENTIAL ENERGY AND VOLTAGE BC Science 9: p

Next page. The topics in this unit are: 1 – Static electricity 2 – Repulsion and attraction 3 – Electric circuits 4 – Circuit symbols 5 – Currents 6 –

PS-6.9: compare the functioning of simple series and parallel electrical circuits PS-6.10: compare alternating current and direct current in terms of the.

ELECTRICAL CIRCUITS.

Electrical Circuits.

The Control of Electricity in Circuits

Introduction to Current Electricity

Alternating Current Direct Current

Cells and Batteries An electrochemical cell can be used to generate a current without plugging into an outlet. The cell consists of two different metal.

Electric Circuits (12.2).

Electric Circuits (12.2).

How do charges flow through the components of a circuit?

ELECTRICAL CIRCUITS S.MORRIS 2006

ELECTRICAL CIRCUITS S.MORRIS 2006

Parallel and Series Circuits

Current Electricity Sections 12.1, 12.2, 12.3, 12.4.

Series and parallel circuits

ELECTRICAL CIRCUITS S.MORRIS 2006

ELECTRICAL CIRCUITS S.MORRIS 2006

Introducing Current Electricity

Current Electricity and Electric Circuits

Components of an Electrical Circuit

ELECTRICAL CIRCUITS.

ELECTRICAL CIRCUITS More free powerpoints at

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

Presentation transcript:

Voltage in Electrical Systems

Unit 4 Voltage Pages (leave a space in between)  Voltage source  Conductors  Control element  Electrical appliance  Electrical loads  Electrical circuit  Direct current  Alternating current  Volts  Primary cells  Secondary cells  Electrode  Cathode  Anode  In series  Electron  Frequency  Voltmeter

Unit 4 Voltage Pages 77  Answer # 1-8

Electrical Systems  Made up of voltage sources, conductors, control elements, and appliances and machines  Batteries/generators, wire/circuits, switches, lights/appliance

Conductor  Any material that allows the movement of electrical energy through it

Control Element  Wall switch  Volume on a radio  Variable speed switch

Electrical Load  Motor  Light Bulb  Appliance

Electrical Circuit  Closed path made by connecting voltage sources, control elements, and electrical loads

AC vs. DC Electricity  AC – Alternating Current  DC – Direct Current

AC  Electric charges move back and forth many times a second in the wire DC  Electric charges in wires always move in one direction

AC  Produced by alternators DC  Produced by batteries

Typical DC Voltage Sources

Dry-cell batteries  A chemical produces the voltage Wet-cell batteries  Contain a liquid electrolyte  Usually a strong acid  Used to start engines because they can deliver a lot of power

Primary cells  Not easily recharged Secondary cells  Easily recharged  The ability to recharge a battery allows us to group these chemical producers of voltage into two classes

Primary cells & Secondary Cells

How are DC Voltage sources connected?  The output of a voltage source comes from two terminals called electrodes  DC sources normally have two electrodes  A Positive and a negative

How are DC Voltage sources connected?  Electrons move in the circuit as if they were flowing out of the negative electrode and into the positive  The negative electrode is called the “cathode”  The positive electrode is called the “anode”

Unit 4 Quiz 1.What is a conductor? 2.Define and explain AC and DC. 3.Explain how battery make up and “chargeability” are classified. (4 definitions)

How do we produce higher voltage?  DC voltage sources can be added together in series  Positive source must be connected to the negative terminal of the other source in succession  If connected in an opposing manner it will sometimes cause battery damage

Good & Bad DC Voltage Sources

What makes up a simple DC Circuit?  How do we make schematics?  Symbols:  Battery  Light bulb  (Load)  Switch  Conductors

How do we make schematics?  Please make a schematic of the following simple circuit

What makes up a simple DC Circuit?  How do we make schematics?  Symbols:

What makes up a simple DC Circuit?

AC Voltage  AC Voltage changes direction about 60 times each second  This rate of change is called the frequency  Frequency is measured in cycles per second or hertz

Voltage acts like a force  Unlike charges attract  Like charges repel  There are three common ways of creating a voltage difference

How do we measure voltage  Voltmeters measure the difference in volts of any two points  Sometimes voltmeters have scales of several ranges

How do we measure voltage  Modern electronics have made digital voltmeters available  Oscilloscopes are used often in analyzing, testing, and troubleshooting electrical systems and circuits  They can also be used as voltmeters