QOD #29 What is happening when you are brushing your hair and it starts going all over the place? (Explain using what you have learned this week about.

Slides:

Advertisements

Similar presentations

Electricity Investigation 2 Review.

Advertisements

Electrical Current & Circuits

Electricity. Static Electricity  Static electricity is the buildup of excess electric charge on an object.

Electric Current Section 2.

CH 7 Electricity.

ELECTRICAL ENERGY.

Electricity & Magnetism

Magnetism and Electricity. Magnetic or Not? Coins Iron washer Aluminum foil Not magnetic Magnetic Not magnetic Steel refrigerator Magnetic.

Conductors and Insulators

Which type of circuit has more than one path for electricity to flow?

Do Now for 6/10/13 Open books to page D-69 HW: Complete Group Procedure.

Electricity & Types of Circuits- Page TSW DESCRIBE DIFFERENT FORMS OF ENERGY (ELECTRICITY).7.4- TSW DESCRIBE DIFFERENT FORMS OF ENERGY (ELECTRICITY).

Jeopardy Static Electricity Circuits Conductors/ Insulators Magnets Pictures Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final.

QOD #29 What is happening when you are brushing your hair and it starts going all over the place? (Explain using what you have learned this week about.

Squishy Circuits, Lemon Batteries, and understanding Circuits.

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

Chapter 15 Electricity.

1 Electricity Chapter Charged objects Neutral Equal positive and negative charges Positive Fewer negative charges (lost electrons) Negative More.

Ch 20 ELECTRICITY Static electricity the accumulation of electric charges (e-) on an object opposite charges attract, like charges repel There are 3.

Lab A-1 What is a Circuit?. Part 1. How many different combinations of the battery, bulb and wire completed the circuit? None are correct.

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.

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Circuits EnergyMaterials Charges.

Electric Circuits17.4. Electrical Safety Tips Make sure insulation on cords is not worn Do not overload circuits Do not use electrical devices while hands.

Electric Circuits.

Electric Circuits 2.0 Presented by (Insert Name Here)

What is a magnet? A magnet is a material or device that attracts items containing iron, nickel, and cobalt. A magnet is a material or device that attracts.

Is this a series circuit or a parallel circuit?

Circuit Diagrams 13.1 An electric circuit can be represented using a diagram. Each part of the circuit is represented with a symbol. By reading a circuit.

Lesson 2 Electricity and Magnetism. Vocabulary Conductor Insulator.

Electrical Circuits. Electrical Circuit Closed path through which charge can flow A Circuit needs: 1.Source of energy (voltage) 2.Conductive path for.

All All matter is made of atoms. Atoms contain positively charged protons, negatively charged electrons, and neutral neutrons. Opposite Opposite charges.

Electricity A. Electric Charge 1. Static electricity is the accumulation of excess electric charges on an object. a. More e¯ = negative charge b. More.

Review of Fourth Grade STARTING WITH ELECTRICITY.

Welcome to… Our Game Focus is: Electricity

Electric Current- A flow of electric charges is an electric current.

ELECTRICITY What would life be like without electricity? List 4 things that you would miss the most: 1) ______________________________ 2) ______________________________.

Electronics Investigation Investigation 1. Circuits Flow of electricity is current Current flows in a circuit Flows in one direction Closed = complete.

Electric Circuits. ► All electrical devices have an electric circuit, also known as a path for electrons to flow. ► All circuits have at least four parts:

Introducing…… ELECTRICITY Essential Question: Explain the difference between Parallel and Series Circuits.

ELECTRICAL CIRCUITS.

Exploring Electricity

Electricity The Science Channel “Understanding Electricity”:

Developed for CVCA Physics By Dick Heckathorn 16 March 2K + 5 Investigating Batteries and Bulbs Summary.

BENGAL TIGER. ATOM COPPER ATOMS OF CONDUCT ORS.

Electricity and Magnetism Study Guide. Vocabulary Charge Static electricity Electric field Measurement of an object’s extra positive or negative particles.

ELECTRICAL CIRCUITS. Circuits Circuits are paths which small particles flow through to provide us with electricity for lights, appliances, and other devices.

Electricity. What is Electricity? a form of energy resulting from the existence of charged particles (such as electrons or protons) either static as an.

Starter: Directions: Copy the questions and answer the questions. You will have to answers for each questions. Use the following terms to answer the question:

W Simple Circuit. Lesson 5: Electrical Circuits Prelab: 1) What is a circuit? __________________________________________________________________ 2)

1 2 pt 2 pt 3 pt 3 pt 4 pt 4 pt 5 pt 5 pt 1 pt 1 pt 2 pt 2 pt 3 pt 3 pt 4 pt 4 pt 5 pt 5 pt 1 pt 1 pt 2 pt 2 pt 3 pt 3 pt 4 pt 4 pt 5 pt 5 pt 1 pt 1 pt.

Warm Up: What is this picture an example of? How does it work? What would happen if you placed a magnet inside the coils?

Static Electricity Circuits Part Deux Safety In the House

Essential Question: How are series and parallel circuits similar and different in how they transfer energy? Standard: S8P5b. Demonstrate the advantages.

Electric Circuits.

Open Parallel Closed Series Short My Book of Circuits.

Chapter 7 Section 2.

Geer Park Elementary Parallel and Series Circuits Part II

Lesson 4 Electricity Part 3.

Circuits Electric Circuits – a complete, closed path through which electrons can flow. Glue in “Secret Language” Handout.

Simple Circuits Explained

Chapter 4 Lesson 2: Circuits 4th Grade Science p22-27.

Learning Objectives To learn the difference between static and current electricity To build a circuit.

Electricity Review Q $100 Q $100 Q $100 Q $100 Q $100 Q $200 Q $200

Series and parallel circuits

Electric Circuits 20.3.

Electricity Test Review

Current Electricity and Electric Circuits

Electricity and STEM Lab #5

Presentation transcript:

QOD #29 What is happening when you are brushing your hair and it starts going all over the place? (Explain using what you have learned this week about charges – don’t just say “static electricity.”)

Circuits Electric Circuits – a complete, closed path through which electrons can flow. Glue in “Secret Language” Handout

Activity #1: Simple Circuit Draw at least one of your circuits.

Conductors of Electricity? Materials Prediction (yes or no) Insulator or Conductor 1.Straw 2. Aluminum foil 3. Paper clip 4. Copper nail 5. Glass 6. Fleece 7. Pencil lead 8. Penny 9. Brass fastener 10. Tooth pick

Conductors of Electricity Conductors – transfer electrons through it easily Insulators – do not transfer electrons through it easily

Questions 1.Which materials conducted an electric current? 2.Why do we use a conductor in an electric circuit?

Switches 1.Follow the directions to make a switch with your partner. Materials: notecard, paper fasteners, paper clip, tape 2. Add the switch to a simple circuit and turn the light bulb on and off with the switch. 3. Draw a diagram of the circuit with a switch in your notebook.

QOD #30 Draw a diagram of a simple circuit with the switch open and one with the switch closed. Circle the drawing where the bulb would be lit.

Draw Circuit Configurations 1.Make a simple circuit to light up a light bulb. Draw a diagram of this working configuration. Label each part. 2.Make a more complex circuit which lights up one or more light bulbs. Draw a diagram of this working configuration. Label each part. 3.Make a different complex circuit. Draw a diagram of this working configuration. Label each part.

1.Series Circuit An electric circuit with only one path for an electric current to flow.

2. Parallel Circuit An electric circuit with more than one path, or branch, for an electric current to flow.

1.Create a series circuit. 2.Unscrew one of the light bulbs. What happened? Why does this happen?

3. Create a parallel circuit. 4. Unscrew one of the light bulbs. What happened? Why does this happen?

Day 3

QOD#73 Draw an electrical diagram of the following circuit. Label the different parts.

Types of Circuits Challenge: Start with a circuit with 2 light bulbs. Create a way for one light bulb to be turned off (or unscrewed) while the other stays on.

Series CircuitsParallel Circuits Advantages Disadvantages Examples

Batteries Batteries have three parts, an anode (-), a cathode (+), and the electrolyte, a liquid or solid separating them. The electrolyte in the battery keeps electrons from going straight from the anode to the cathode within the battery. When the + and – ends are connected with wire, electrons can easily flow from anode to cathode. Batteries convert chemical energy to electrical energy. Wet and dry cells are classified by the type of electrolyte the battery uses. The electrolyte of a cell may be a liquid or a paste. If the electrolyte is a paste, the cell is referred to as a dry cell. If the electrolyte is a solution, the cell is called a wet cell.

Dry Cell Battery

Wet Cell Battery

Lemon Battery (Wet Cell)

Day 4

QOD#34 Explain how the two types of circuits are different.

QOD#79 Explain how a light switch works. (Be specific about when a switch is open and closed.)

Light Bulb Filament A filament is the little wire inside of a light bulb, with a high melting point, that glows and gives off visible light

Making a Filament Lab 1.Follow the directions of the hand out to make a filament. 2.Safety: – The nichrome wire is thin and can cut the ends of your fingers if you pull it too hard. – Make sure the wires to your batteries are disconnected while wrapping the nichrome wire. – Do not touch the nichrome wire once the circuit is closed. It gets very hot! You can burn yourself! 3.Draw a picture of the set up required to make a filament. Label the parts. 4.Clean Up: We are going to re-use the nichrome wire. When directed, please straighten out the nichrome wire so we can re-use it for the next classes.

Types of Light Bulbs Light Emitting Diodes (LEDs) – Ex: light up numbers on digital clocks, traffic signals Incandescent Light Bulbs – produces light with a filament Compact Fluorescents (CFLs)

Pros & Cons of Different Types of Lights Types of Lights ProsCons Light Emitting Diodes (LEDs) Incandescent Light Bulbs Compact Fluorescents (CFLs)

Make a Claim – Paragraph Write a paragraph about which type of light bulb you would recommend using based on the positives and negatives you listed. Give support for your reasoning based on the specifics from the comparison chart.

QOD# Mrs. Schneider and her husband use about 300 kilowatt-hours (kWh) in a month at their house. If we pay 10 cents per kWh, how much is the electricity bill? $30.00

11:00 pm Saturday Night 11:08 pm Sunday Night 1,915 kWh – 1,903 kWh = 12 kWh used in 24 hours How much did it cost? $1.20