Grade 5 Standard 4 Unit Test Static Electricity



Similar documents
Lesson Plan for Introduction to Electricity

Static Electricity Page 1. Static Electricity. Introduction: Structure of Atoms 2 Sample Curriculum, Materials Needed

3 5 Sample Science Task

Lab 1. Charges and Electrostatics

Electricity. Introduction. Key concepts of electricity. Static electricity. Current electricity

Static Electricity. Section 4.2. Explaining Static Electricity

Electrical Symbols PREPARATION OBJECTIVES SCHEDULE VOCABULARY MATERIALS. The students. For each student. For each team of two.

Circuits and the Flow of Electricity

THE SHOCKING TRUTH ABOUT ELECTRICITY

Bill-Bill-Bill-Bill-Bill

Exploring Energy. Third - Fifth TEKS. Vocabulary

Sample. What Electricity Can Do LESSON 2. Overview and Objectives. Background

Circuit diagrams and symbols (1)

Introduction to Electricity Grade Level:

ASSESSMENT MAGNETISM AND ELECTRICITY WASHINGTON EDITION. See page 2

THE 7 SINS OF ESD CONTROL CERTIFICATION TEST (DVD-78C)

ASSESSMENT OF SCIENCE AND TECHNOLOGY ACHIEVEMENT PROJECT (ASAP) Science and Technology Exemplars. Grade 6: Energy and Control Electricity

What is Energy? 1 45 minutes Energy and You: Energy Picnic Science, Physical Education Engage

PS-6.2 Explain the factors that determine potential and kinetic energy and the transformation of one to the other.

Electricity and Magnetism

Build A Simple Electric Motor (example #1)

5.8 A Differentiate among forms of energy including light, heat, electrical, and solar energy. FORMS OF ENERGY

Electric Motor. Your Activity Build a simple electric motor. Material. Create. Science Topics. What s going on? 2 Jumbo Safety Pins (or Paper Clips)

Electricity and Magnetism

ELECTRICITY UNIT SCIENCE AND TECHNOLGY- CYCLE 3 NAME GROUP. Teacher: Mr. D. Strina dstrina@swlauriersb.qc.ca MC CAIG ELEMENTARY SCHOOL

4th GRADE MINIMUM CONTENTS UNIT 13: MATERIALS & MACHINES

Integrated Physics & Chemistry Supply List (2010)

Students will investigate the characteristics of electromagnetism and then use what they learn to plan and conduct an experiment on electromagnets.

Energy Transfer in a Flash-Light. (Teacher Copy)

THIRD GRADE PHYSICS 3 WEEKS LESSON PLANS AND ACTIVITIES

Lesson Plan for Electric Circuits

Odyssey of the Mind Technology Fair. Simple Electronics

Section B: Electricity

Heat Energy FORMS OF ENERGY LESSON PLAN 2.7. Public School System Teaching Standards Covered

Circuit symbol. Each of the cells has a potential difference of 1.5 volts. Figure 1. Use the correct answer from the box to complete the sentence.

Mechanical Energy. Mechanical Energy is energy due to position or motion.

Cluster 3: Electricity

Energy and Energy Transformations Test Review

Video Component (15 min)

A Learning Guide for Model Rocket Launch Systems

Interaction at a Distance

BUILDING A BASIC CIRCUIT

Cluster 3: Forces that Attract or Repel

Chapter 6, Lesson 4: Temperature and the Rate of a Chemical Reaction

Discover what you can build with ice. Try to keep ice cubes from melting. Create colored ice for painting

Let's Go Science Show

Build Your Own Solar Car Teach build learn renewable Energy! Page 1 of 1

ELEMENTARY-LEVEL SCIENCE TEST

Student Reader. Energy Systems UNIT 7. E5 Student Reader v. 8.0 Unit 7 Page KnowAtom TM

Electrical Circuits Design Project. Project Guide Free Digital Sampler!

Martin County Amateur Radio Association. Nightfire Kits 1 LED Torch Kit Contents. Description

Suggested Activities Processes that Shape the Earth: Earth s Structure and Plate Tectonics

Electronics and Soldering Notes

OBJECTIVES THE STUDENTS WILL: Participate in cooperative problem solving in a group setting.

SOLAR ENERGY. Solar Energy, Kit #6A: Efficiency of Solar Cells. Solar Energy, Kit #6B: Solar Extension Activities INSTITUTE FOR SCHOOL PARTNERSHIP

Exploring Magnetism. DataQuest

Science Grade 05 Unit 04 Exemplar Lesson 01: Types of Energy

Energy - Heat, Light, and Sound

1/2/3. Finding out about the Water Cycle

Grade 4 Standard 1 Unit Test Water Cycle. Multiple Choice. 1. Where is most water found on Earth? A. in glaciers B. in lakes C. in rivers D.

Provided by TryEngineering -

Chapter 2: Forms of Energy

Ohm's Law and Circuits

KINDERGARTEN PHYSICS

apple Service Source PowerBook G4 (DVI) Updated 4 December Apple Computer, Inc. All rights reserved.

Lab 37: Magnetic Field ; Magnets - Drawing magnetic fields - Magnetic poles - Forces between magnets

Phonics. P.041 High Frequency Words. Objective The student will read high frequency words.

Forensic detectives. magnifying glass Foot prints. brain training. Badge

STUDY GUIDE: ELECTRICITY AND MAGNETISM

INSTRUCTIONS FOR THE INSTALLATION AND OPERATION OF ACTIVATOR II

BASIC LESSON Objective(s)

GOODNIGHT, MOON (AND STARS)

Table of Contents. What to Expect with. Preparation. Tools Needed. Wiring. Hanging the Fan. Blades. Motor Housing.

ELECTRICITY AND MAGNETISM

Name Date Class. As you read about the properties of air, fill in the detail boxes that explain the main idea in the graphic organizer below.

Magnetism: Electromagnets

16-3 Electrical Potential Difference

Building an Electrolysis Copper Cleaner Roy Seifert

Chapter 2: Forms of Energy

Potential and Kinetic Energy

Static Electricity. A Health and Safety Guideline for Your Workplace. What Are Some Sources of Static Electricity? What is Static Electricity?

Elementary circuits. Resources and methods for learning about these subjects (list a few here, in preparation for your research):

Van de Graaff Generator

STRING TELEPHONES. Education Development Center, Inc. DESIGN IT! ENGINEERING IN AFTER SCHOOL PROGRAMS. KELVIN Stock #651817

Unit/Lesson Plan Title: Transfer of Heat: Conduction. Integrated Subjects Math Grade Level(s) 5

Energy Transformation Lab

Suggested Grade Level: Third Grade. Measurable Objects: Instructional Input: Prior Knowledge: Sink, float, predict or guess, writing

Electricity is such a common part of our lifestyle that we tend to forget the amazing

Mission 7: Saving Energy

Uses of Energy. reflect. look out!

5800 Temperature Sensor Cable Assembly

Basic Electrical Circuits Teacher s Guide by: Jeff Molitor (Idaho State University)

Magnets. Electromagnets. and. Thomas Jefferson National Accelerator Facility - Office of Science Education

XVI. Science and Technology/Engineering, Grade 5

What is Energy? What is the relationship between energy and work?

Provided by TryEngineering -

Roanoke Pinball Museum Key Concepts

Solids, Liquids, and Gases

Awning Instructions. Full Cassette 1.5m to 6m

Transcription:

Grade 5 Standard 4 Unit Test Static Electricity Multiple Choice 1. Two objects have collected static electricity with the same charge. What would the objects do when placed near each other? A. repel B. attract C. nothing D. stick together 2. Which form of electric discharge appears in nature? A. rain B. ocean currents C. lightning D. volcanoes 3. Why does static electricity move from you to a metal object after you have walked over new carpet? A. It is attracted to the metal. B. It is attracted to you. C. It is attracted to the carpet D. It is made in your shoes. 4. How can you tell when static electricity has been discharged? A. Heat is released that can be felt. B. Light is released and you can feel a shock. C. Static electricity gives off many different colors D. The object begins to spin rapidly when it is shocked. 11.3.1

Use this diagram of a homemade electroscope to answer the next two questions. The circles are Cheerios that will take a static charge. 5. In the diagram, the Cheerios are apart. What does that indicate about the charge on the Cheerios? A. One Cheerio is positive, the other is negative. B. Both Cheerios are negative. C. Both Cheerios are positive. D. The Cheerios have the same charge. 6. Why would a comb that had been run through hair touch one cheerio and cause the two Cheerios to come together. The comb had... A. a negative charge. B. a positive charge. C. a different charge than the Cheerios already had. D. the same charge as the Cheerios already had. 7. When performing an experiment with electricity, which material would act as an insulator? A. staple B. popsicle stick C. wire D. paper clip 8. Which type of electricity moves along a pathway to turn on a light? A. static electricity B. lightning energy C. turbine electricity D. current electricity 11.3.2

9. What will happen if you add more batteries to an electrical circuit containing light bulbs? A. There is no change. B. The bulbs will dim. C. The bulbs will be brighter. D. The bulbs will last longer. 10. Which material acts as a conductor of electricity? A. popsicle stick B. rubber glove C. plastic button D. paper clip 11. Ken wanted to make a light bulb glow. Which set of materials would he need? A. paper cup, paper clip, and a popsicle stick B. D-cell battery, wire, and a light bulb C. button, D-cell battery, and a rubber glove D. D-cell battery, paper, and a bulb Constructed Response 1. What is static electricity? 2. What causes lightning? 3. How can you increase the shock you get from touching a metal object after rubbing your feet across the carpet? 4. Draw a complete circuit with a power source, switch and light. Show all connections. 5. What is current electricity? 11.3.3

Answers Standard 4 Unit Test: Multiple Choice 1. A 2. C 3. A 4. B 5. D 6. C 7. B 8. D 9. C 10. D 11. B Constructed Response 1. Static electricity is the build up of an electric charge in a certain location. The charge does not move, it stays in one place. 2. Static electricity builds up in the clouds or on the ground as air moves across Earth s surface. When it becomes great enough, it discharges from cloud to ground or ground to cloud. 3. Rub my feet longer or more vigorously (harder, faster). 4. Answers will vary. Students may use different symbols for the circuit components. 5. Current electricity is when electrons move from one place to another. 11.3.4

Grade 5 Standard 4 Performance Test 1 Static Electricity Title: Charging Cheerios Activity Description Students will build and test a homemade electroscope. Prior to Assessment Students need to know that an electric charge can be positive or negative and that an electric charge can move. Like charges repel and unlike charges attract. When the parts of an electroscope (Cheerios in this case) move apart, they are charged. You cannot tell whether the charge is negative or positive. When they move together, the charge has been removed. If they move even further apart, the charge has been increased. Materials: Science Log Sheet (see the following pages) For each group of 2 to 3 students: Inside bag #2 wire clothes hanger Cotton thread Wool ruler Silk scissors Polyester two Cheerios Fur comb (plastic, any size) Balloon Time Needed: Allow 20 to 30 minutes for this activity. Procedure: 1. Begin by asking the students the following: How could we measure static electricity? (Amount of repulsion or attraction) What happens when you walk across the carpet in your stocking feet? (When you touch a doorknob you feel a shock.) 11.3.5

2. Form cooperative groups and have each group construct an electroscope. 3. Bend the hanger to build a stand as shown on the preceding page. 4. Measure 12 inches of thread and cut it. Tie the thread to two Cheerios, placing one Cheerio on each end of the thread. Tie the thread to the stand so that the Cheerios hang beside each other, but do not touch the table. Run the comb through your hair and bring it near the Cheerios. 5. On the Science Log page, record whether or not the Cheerios repel each other or attract each other. 6. Take out of Bag #2 a variety of labeled fabrics. Rub the comb with each of the fabrics in Bag #2 and record on the Science Log page whether or not the Cheerios repel each other or attract each other when one is touched with the comb. 7. Turn in the log page. 8. Put all the science equipment back in the bags as you found them. Scoring Guide Followed instructions carefully...................... 5 points Name on Science Log sheet........................5 points Data sheet filled out correctly.......................10 points Questions on bottom of sheet answered.............. 10 points each Total points possible on Performance Assessment...... 30 points 11.3.6

Student Science Log Sheet-Charging Cheerios Student Names Date Materials: Bag #2 wire clothes hanger cotton thread wool ruler silk scissors polyester two Cheerios fur comb (plastic, any size) balloon Procedure: 1. Construct an electroscope. 2. Bend the hanger to build a stand as shown on preceding page. 3. Measure and cut 12 inches of thread. Tie 12 inches of thread to two Cheerios, placing a Cheerio on each end of the thread. Tie the thread to the stand so that the Cheerios hang beside each other, but do not touch the table. Run the comb through your hair and bring it near the Cheerios. 4. Record on your Science Log sheet whether the Cheerios repel or attract each other. 5. Take bag #2 and rub the comb with each item in the bag. Touch the comb to one Cheerio. Record your data. 6. Turn in your Lab Sheet. 7. Turn in your Science Log sheets. 8. Return your materials to their places. 11.3.7

Science Log Sheet-Charging Cheerios Student Name Date: Object Tested Repels or Attracts Hair Cotton Wool Silk Polyester Fur Balloon 1. Which fabrics or items made the Cheerios attract each other? 2. Which fabrics or items made the Cheerios repel each other? 11.3.8

Grade 5 Standard 4 Performance Test Static Electricity Title: Does It Conduct? Activity Description: Students will predict which substances conduct electricity and then experimentally identify conductors and insulators of electricity. Materials: Bag # l will contain aluminum foil, key, rubber glove, quarter, button, pencil, pen, book, paper clip and a prediction form. Bag #2 will contain a battery, some wire, and a light bulb and a data sheet for experimenting with all the items listed in Bag #1. Time Needed: 50-60 minutes Procedure: Students will look at the items in their Bag #1. They will predict whether or not the item is a conductor of electricity or an insulator. They will record on their lab sheet (see next page) their prediction. Then they will take the equipment out of Bag #2 and take the battery, the light bulb and the wire and make a connection that will light the bulb. They will then go through the list and test each item. They will record their findings and compare their prediction with their experiment findings. Scoring Guide: 1. Student follows directions... 5 points 2. Student fills out prediction form... 5 points 3. Student does experiment with data recorded... 5 points 4. Student has name on all pages... 5 points 5. Student replaces all equipment properly... 5 points 11.3.9

Student Sheet Does It Conduct? Name Date PREDICTIONS: Item Conductor Insulator Aluminum foil Key Rubber glove Quarter Button Pencil Pen Book Paper clip EXPERIMENT FORM TAKE THE ITEMS FROM BAG #2. Make a connection that will light the light bulb. Then take each item and test it to see if the connection will light the bulb through the item. Mark conductor if it will allow the light bulb to light, mark insulator if it will not allow the light bulb to light. Compare with your prediction sheet. Item Conductor Insulator Aluminum foil Key Rubber glove Quarter Button Pencil Pen Book Paper clip 11.3.10

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information