Objectives: The aim of the lesson and experiment is to help the student investigate how the voltage affects the current through a piece of wire and understand.

Slides:

Advertisements

Similar presentations

Does God exist? Learning Outcomes Learning Outcomes To know one argument in favour of the existence of God To know one argument in favour of the existence.

Advertisements

S2 Science Our Physical World Part 3 Knox Academy Science Department 1. Introduction to static electricity By the end of lesson 1, pupils should be able.

Vex 1.0 © 2005 Carnegie Mellon Robotics Academy Inc. In this lesson you will learn: How a potentiometer works as a variable resistor and a voltage divider.

Circuits Chapter 35. LAB 21 What will happen to bulbs 1 and 2 when you disconnect the wires at various points? Consensus: Current requires a closed loop.

Thursday November 29, 2007SNC1D | Miss. Manaktola 1 Simple Circuits Quiz SNC1D: Thursday November 29, 2007.

Energy & Electricity Investigating voltage and current.

P6 Flavour Sharing Charging Logic gates Motoring and Generators Resisting Computer circuits Transformers lessons 8 Home works End of topic assessment.

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

Technician’s List Demos

Ohm’s Law V = I R + _ V I R. Ohm’s Law: V = IR A fundamental relationship in electric circuits. Describes how much potential difference is required to.

Electric Current Remember: Copper atoms are much bigger than electrons and are packed together in the wire October 2015.

Open up your notes at page 5, note 11. Resistance Work in pairs - Attempt to fill in the blank spaces in note 11. resistance R  Ohms 20 

Copyright ©2011 by Pearson Education, Inc. publishing as Pearson [imprint] Introductory Circuit Analysis, 12/e Boylestad Chapter 5 Series dc Circuits.

Physics ( ) Electrical Circuits Varying Resistance © SSER Ltd.

Regents Physics Chapters 17/18 Circuits  Series Circuits.

Look at the picture below What else might effect the resistance of a wire?

Resistance of wires – assessed investigation Aim: To find out how the length of a wire affects its resistance. What you need to do: Choose a circuit to.

Ohm’s Law Calculating Current, Voltage, and Resistance.

Unit 3, Chapter 8 Integrated Science. Unit Three: Electricity and Magnetism 8.1 Ohm's Law 8.2 Work, Energy, and Power Chapter 8 Electrical Relationships.

Electric Circuits Prentice Hall: Electricity and Magnetism Chapter 2, Section 4 Mrs. Brunner Science Visit for review

INVESTIGATION HELPS Planning your investigation. INVESTIGATION HELPS Introduction For a fixed resistance there is a relationship between R, V and I. Plotting.

Unit 8 - Electricity. Electricity Static Electricity: Electricity at rest Unequal + and - charges Electric Current: The flow of electric charge Electric.

Physics A First Course Electricity Chapter 13.

What we will do today Define the term ‘potential difference’. Look at the ratio V/I for a resistor. Define an equation relating resistance, voltage and.

Chapter 14 Physics A First Course Electricity. Electricity Electrical Systems 14.1 Series Circuits 14.2 Parallel Circuits 14.3 Electrical Power, AC, and.

Chapter 18 Electric Circuits Chapter Opening 18.1 Electric circuits and electric current 18.2 Electrical energy and voltage 18.3 Resistance and Ohm’s law.

18.3 Resistance and Ohm’s law Resistance of a tungsten filamentExample 5 A student carried out an experiment to find the resistance of the tungsten filament.

Circuit Basics & Series Circuits Aim: How are circuits designed and connected?

Electric Circuits P5.1 Static electricity P5.2 Current and voltage P5.4 Resistors in parallel P5.4 Resistors in Series P5.5 Measuring resistance Explaining.

P4: Radiation for Life Lesson 5: Safe Electricals (part 1)

The Series Circuit Summary 1. The sum of the _____________or voltage equals the potential rise of the source. 2. The current is ______________ everywhere.

A –Level Physics: Electrical Quantities: Internal Resistance

Electric circuits lesson 2

Unit 1 Electricity, energy and waves

How do we measure current and potential difference (voltage) in a circuit? HW:

P2 Topic 2: Controlling and using electric currents

Ohm’s Law Power Electric Energy Electric Cost

How does the type of metal affect how much current a circuit has?

Aim: How is a Series Circuit different from a Parallel Circuit?

EDEXCEL IGCSE PHYSICS 2-4 Electrical Resistance

Electric circuits e the significance of and the relationship between current, voltage and resistance.

What do all these have in common? What are they used for?

8.3 Resistance and Ohm’s Law

WALT – Explain how resistance is used in everyday life

Be able to describe how the resistance of LDRs and Thermistors varies.

Why Make Electrons Flow Anyway?

8 Series Circuits UEENEEE104A DC CIRCUITS PURPOSE:

Resistance Chapter 23.

P2 Topic 2: Controlling and using electric currents

THE RESISTOR Forward characteristic Reverse characteristic Circuit.

Electromagnets Lesson 3

Calculating the resistance of a bulb

P2 Topic 2: Controlling and using electric currents

To begin… Can you explain this…..

Ohm’s Law – The relationship between Current, Voltage and Resistance.

Ohm’s Law and Circuit Basics

Resistors and Ohm’s Law Experiment No

What are series and parallel circuits?

Draw the symbols for the below components: Cell: Battery:

Introduction to electricity part 2

Series and Parallel Circuits

Basic Electrical Measurements

Electricity & Circuits

How can we change the current in a circuit?

Equipment REQUIRED PRACTICAL – This will need 2 lessons including drawing the graph and concluding. Electric circuit boxes Voltmeters Ammeters Resistance.

Presentation transcript:

Objectives: The aim of the lesson and experiment is to help the student investigate how the voltage affects the current through a piece of wire and understand Ohm’s Law. Lesson introduction (15 min): Recap on previous learning on electric current. Introduce subject area and refer students to the Ohm’s Law Student Revision Notes in the ‘Education’ section of Allow time for students to review these. Explain experiment and learning objectives. Lesson activity (25 min): Group students in pairs and task them to: Perform the experiment detailed in the Student Sheet to measure current for various voltages across a fixed piece of wire. Calculate V/I for each set of readings and insert in the table on the Worksheet. Extension activity: plot voltage against current.

Lesson demonstration (10 min): Select some of the students to inform the rest of the class about their findings. Lesson review (10 min): Recap on learning regarding the relationship between voltage and current from the experiment, the consequent Ohm’s Law, and get students to complete the Ohm’s Law Student Quiz at to establish levels of understanding. Resources required: For each student pair: 1 metre of constantan wire (28SWG) fixed to a metre rule, a variable voltage dc power supply (0 - 6v), a dc ammeter (0 - 1A), a dc voltmeter (0 - 6V), two crocodile clips and 5 leads. Access to internet for Expected Outcomes: By the end of the session students will understand the relationship between voltage and current and the associated Ohm’s Law.