EPSE Project 1: Sample Diagnostic Questions - Set 3

Similar documents
EPSE Project 1: Sample Diagnostic Questions - Set 2

7.9.2 Potential Difference

ELECTRICITY & MAGNETISM - EXAMINATION QUESTIONS (4)

Lab 4. DC Circuits II

Series and Parallel Circuits

Cabrillo College Physics 10L. LAB 7 Circuits. Read Hewitt Chapter 23

Lab 4. DC Circuits II

7.9.1 Circuits. 123 minutes. 170 marks. Page 1 of 56

Academic Year

Electricity 2 Questions NAT 5

Mandatory Experiment: Electric conduction

Science Olympiad Shock Value ~ Basic Circuits and Schematics

Current Score: 0/20. Due: Mon Feb :15 PM EST. Question Points. 0/40/100/40/10/1 Total 0/20. Description

Lab 08: Circuits. This lab is due at the end of the laboratory period

Engaging Inquiry-Based Activities Grades 3-6

Series circuits. The ammeter

Name Period. (c) Now replace the round bulb(s) with long bulb(s). How does the brightness change?

AP Physics B Ch 18 and 19 Ohm's Law and Circuits

11.1 CURRENT ELECTRICITY. Electrochemical Cells (the energy source) pg Wet Cell. Dry Cell. Positive. Terminal. Negative.

Electric current, resistance and voltage in simple circuits

PAPER ASSIGNMENT #1: ELECTRIC CIRCUITS Due at the beginning of class Saturday, February 9, 2008

Circuits. This lab is due at the end of the laboratory period

Circuit Analysis Questions A level standard

SC10F Circuits Lab Name:

PHYSICS 6 EXTENDED PHYSICS

Series and Parallel Networks

Series and Parallel Circuits Virtual Lab

Which of the following statements is/are correct about the circuit above?

7. How long must a 100-watt light bulb be used in order to dissipate 1,000 joules of electrical energy? 1) 10 s 3) 1,000 s 2) 100 s 4) 100,000 s

Current, resistance and potential difference

7J Electrical circuits Multiple-choice main test

Your web browser (Safari 7) is out of date. For more security, comfort and. the best experience on this site: Update your browser Ignore

PROPERTIES OF ELECTRIC CIRCUITS

Based on results from TIMSS Key. bulb. bulb. switch. wir. battery. wir. switch. Lesson plan on investigative science. wire.

Unit 9. (Filled In) Draw schematic circuit diagrams for resistors in series and in parallel

Chapter 26 DC Circuits

Chapter 26 DC Circuits. Copyright 2009 Pearson Education, Inc.

POWER and ELECTRIC CIRCUITS

Two type of materials

2. A student sets up the circuit shown. The switch is open (off). Which lamps are on and which lamps are off?

Using your Digital Multimeter

ACTIVITY 1: Electric Circuit Interactions

CHAPTER 6.3: CURRENT ELECTRICITY

Solar Kit Lesson #13 Solarize a Toy

Circuits. Now put the round bulb in a socket and set up the following circuit. The bulb should light up.

34.5 Electric Current: Ohm s Law OHM, OHM ON THE RANGE. Purpose. Required Equipment and Supplies. Discussion. Procedure

4 Electric Circuits. TAKE A LOOK 2. Identify Below each switch, label the circuit as a closed circuit or an open circuit.

Circuits-Circuit Analysis

PAPER 2 THEORY QUESTIONS

V=I R P=V I P=I 2 R. E=P t V 2 R

Write the term that correctly completes the statement. Use each term once. ampere. electric current. resistor battery.

INVESTIGATION ONE: WHAT DOES A VOLTMETER DO? How Are Values of Circuit Variables Measured?

LED PICTURE FRAME KIT

Essential Electricity Homework Exercise 1

Chapter 21 Practical Electricity

A device that measures the current in a circuit. It is always connected in SERIES to the device through which it is measuring current.

Fun-Size: Starting Electricity Bingo

Circuit Notes. Def: 1. Power supply:

Batteries n Bulbs: Voltage, Current and Resistance (8/6/15) (approx. 2h)

1103 Period 16: Electrical Resistance and Joule Heating

PHA3/W PHYSICS (SPECIFICATION A) Unit 3 Current Electricity and Elastic Properties of Solids

LAB 7. SERIES AND PARALLEL RESISTORS

Phys 202A. Lab 7 Batteries, Bulbs and Current

8.2 Electric Circuits and Electrical Power

The graphs show the voltage across two different types of cell as they transfer the last bit of their stored energy through the torch bulb.

Student book answers Chapter 1

Name: Base your answer to the question on the information below and on your knowledge of physics.

Technical Workshop: Electrical December 3, 2016

Circuits. What are circuits?

Student Instruction Sheet: Unit 3 Lesson 2. Electric Circuits

PHY152H1S Practical 3: Introduction to Circuits

Special resistors. Book page Syllabus

LESSON PLAN: Circuits and the Flow of Electricity

Electricity Practice (Demo Version)

Unit P.2, P2.3. Currents in electric circuits E ½. F Fuel gauge indicator. Fuel tank. Ammeter. Float. Battery. Sliding contact. Pivot 12V.

SUPER CAPACITOR CHARGE CONTROLLER KIT

Section 6 HOW ARE VALUES OF CIRCUIT VARIABLES MEASURED?

Chapter Assessment Use with Chapter 22.

Fourth Grade. Multiplication Review. Slide 1 / 146 Slide 2 / 146. Slide 3 / 146. Slide 4 / 146. Slide 5 / 146. Slide 6 / 146

Fourth Grade. Slide 1 / 146. Slide 2 / 146. Slide 3 / 146. Multiplication and Division Relationship. Table of Contents. Multiplication Review

Electricity Program of Study Content Assessment: Explanations for Current Electricity Items

Level 3 Physics: Demonstrate understanding of electrical systems Batteries and Kirchoff s Laws - Answers

Name Date Period. MATERIALS: Light bulb Battery Wires (2) Light socket Switch Penny

Physical Processes B Light & Sound / Electricity

VANDERBILT STUDENT VOLUNTEERS FOR SCIENCE Electrical Circuits VINSE/VSVS Rural

Science 10-Electricity & Magnetism Activity 4 (2007) Activity 3E Investigating Electric Current

Q1. (a) A science technician sets up the apparatus shown below to demonstrate the motor effect. He uses a powerful permanent magnet.

13.10 How Series and Parallel Circuits Differ

LETTER TO FAMILY. Science News. Cut here and glue letter onto school letterhead before making copies.

Amtek Basic Electronics 1

4 Electric Circuits. TAKE A LOOK 2. Identify Below each switch, label the circuit as a closed circuit or an open circuit.

Review for formula, circuit and resistance test

High Demand Questions QUESTIONSHEET 1 (a) Teresa set up the circuit shown in the diagram. The ammeter reading was 0.4 A.

45 Current Electricity. February 09, Current Electricity. What we will learn, Arc Attack. Electric Man. 1

Laboratory 5: Electric Circuits Prelab

CHASSIS DYNAMICS TABLE OF CONTENTS A. DRIVER / CREW CHIEF COMMUNICATION I. CREW CHIEF COMMUNICATION RESPONSIBILITIES

Investigation Electrical Circuits

2: The resistivity of copper is Ω.m. Determine the resistance of a copper wire that is 1.3 m long and has a diameter of 2.1 mm.

Electrical Circuits Discussion Questions:

Electric Circuits Exam

Transcription:

EPSE Project 1: Sample Diagnostic Questions - Set 3 Circuit behaviour These questions probe pupils understanding of the behaviour of simple electric circuits. Most are about series circuits, and check that pupils understand the relationships between the battery voltage and the current, and between the resistance in the circuit and the current. We have found Q5 in this set poses particular problems for pupils many of whom think that one ammeter reading will decrease but the other will stay the same. (This really goes back to their understanding of current as a conserved quantity in a series circuit.) Qs7-10 probe understanding of the effect of adding a resistor in series or parallel to one already present. We have found that very few pupils can answer correctly about the parallel combinations; they seem not to see this as providing an additional route for current, thus making the resistance less (and the current from the battery bigger). This is a point worth drawing attention to in teaching having a picture in your mind of what is going on is likely to be more useful than trying to remember the rules! These questions are taken from a larger bank of diagnostic questions and tasks developed by the Evidence-based Practice in Science Education (EPSE) esearch Network. The EPSE network was funded between 1999 and 2003 by the UK Economic and Social esearch Council (ESC) as part of the Teaching and Learning esearch Programme (TLP). University of York Science Education Group (UYSEG) 2002

1 Four different batteries are used to light a bulb. All the bulbs are identical. 1.5V 4.5V 6V 9V a b c d (a) Which battery lights the bulb brightest? Battery a Battery b Battery c Battery d All the bulbs will be the same brightness. It is the biggest battery, so it contains most electricity. It has the largest voltage, so it pushes the biggest current round. It is a torch battery, which is designed for lighting bulbs. It is a bicycle lamp battery, which is designed to give a bright light. The bulbs are identical, so they light equally brightly.

2 Two batteries are connected to a bulb. The bulb is lit. There is a reading on the ammeter. One of the batteries is then removed. (a) What happens to the reading on the ammeter? It gets less, but not zero. It drops to zero. (b) Which of the following is the best explanation for this? One battery exerts a smaller push on the electric charges. The bulb always needs the same amount of current to make it light. The resistance in the circuit is less. How confident are you that your answers to this question are correct?

3 This bulb lights when it is connected to a 1.5V battery. 1.5V Another 3V battery is then connected into the circuit, like this: 1.5V 3V (a) What happens to the bulb now? It is lit and brighter than before. It is lit the same brightness as before It is lit but a lot dimmer than before. It is not lit. The two batteries together add to 4.5V. The two batteries together add to 1.5V. Current cannot pass through a battery in the wrong direction. The bulb is connected to the positive terminal of both batteries, so there is no current through it. How confident are you that your answers to this question are correct?

4 The resistor in this circuit, 1, has a small resistance. 1 - small resistance It is replaced by 2, which has a large resistance. 2 - large resistance (a) What happens to the current in the circuit? It gets less, but not zero. It drops to zero. The battery is not strong enough to push any current through a larger resistor. The battery cannot push as big a current through a larger resistor. A large resistance needs more current than a small resistance. It is the same battery, so it supplies the same current. How confident are you that your answers to this question are correct?

5 This circuit consists of two ammeters and a variable resistor,. There is a reading on both ammeters. 1 2 The resistance of is increased. (a) What happens to the reading (b) What happens to the reading on ammeter A 1? on ammeter A 2? It gets smaller. It gets smaller. (c) How would you explain this? A large resistance needs more current than a small resistance. It is the same battery, so it supplies the same current. Increasing the resistance makes the current smaller everywhere in the circuit. Increasing the resistance makes the current smaller after the resistor. It has no effect on the current before it. Increasing the resistance makes the current smaller after the resistor. So the current before it gets bigger. How confident are you that your answers to this question are correct?

6 This circuit consists of a battery and a motor. The motor is running. A second identical motor is added. (a) What happens to the current in the circuit? It gets less, but not zero. It drops to zero. The battery is not strong enough to push any current through two motors. The battery cannot push as big a current through two motors. It is the same battery, so it supplies the same current. Two motors need more current than one on its own. The current is shared between the two motors, so each gets half. How confident are you that your answers to this question are correct?

7 Sam makes this circuit. There is a reading on the ammeter. He then adds a second identical resistor. (a) What happens to the reading on the ammeter? It gets less, but not zero. It drops to zero. The battery is not strong enough to push any current through two resistors. The battery cannot push as big a current through two resistors. It is the same battery, so it supplies the same current. Two resistors need more current than one on its own. The current is shared between the two resistors, so each gets half. How confident are you that your answers to this question are correct?

8 All the resistors in the diagrams below are identical. A B C (a) How does the resistance of combination B compare with the resistance of A? The resistance of B is bigger than A. The resistances of A and B are the same size. The resistance of B is smaller than A. (b) How does the resistance of combination C compare with the resistance of A? The resistance of C is bigger than A. The resistances of A and C are the same size. The resistance of C is smaller than A. How confident are you that your answers to this question are correct?

9 All the resistors in the diagrams below are identical. A B C Put these groups of resistors in order, from the one with the largest total resistance to the one with the smallest total resistance. Write your answer in the table below: esistance Code letter Largest v Smallest How confident are you that your answer to this question is correct?

10 The two resistors in this circuit are identical. The switch is open. There is a reading on the ammeter. The switch is then closed. (a) What happens to the reading on the ammeter? It gets smaller. Tick TWO boxes ( ) below one from each group The total resistance is now bigger. The battery cannot push as big a current round the circuit. The total resistance stays the same. The second resistor provides an extra path for current to flow. The total resistance is now smaller. It is the same battery, so it always supplies the same current. How confident are you that your answers to this question are correct?

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