Bike Generator Service Project Physics 140 Lab.

Slides:

Advertisements

Similar presentations

Vocabulary Mini Review Magnetism. A(n) ___________ can be made by coiling a wire around an iron nail and connecting it to current. Electromagnet.

Advertisements

1 Electricity & Magnetism Unit I - Charge Behavior and Interactions –Charge produces and responds to an electric field Unit II - Electric Potential –An.

ECE 4411 Dynamic Braking of Induction Motors Slow down a machine by converting kinetic energy stored in the rotating mass to heat energy in the rotor and/or.

Instrumentation: ground and noise Temperature Measurement.

Electricity How is it made?.

Phy 213: General Physics III Chapter 30: Induction & Inductance Lecture Notes.

Basics in Magnetism Electromagnetism Force on a Current-Carrying Wire EM Induction Transformer Generators Electric Motors ELECTROMAGNETISM.

Electromagnetism, etc. Q & A. Q#1 Q#2 Q#3 Q#4.

Inside an Incandescent Light Bulb. You are will be using an incandescent light bulb to build circuits in class.

UNIT FIVE: Electricity and Magnetism

IEEE’s Hands on Practical Electronics (HOPE) Lesson 1: Introduction.

Electricity Quiz IncorrectCorrect. Q.1 When you rub a balloon on a wool sweater or your hair, it gets an excess of ________________ ______________ which.

Section 3-2 Electricity, Magnetism and Motion.  N Explain how electrical energy can be transformed into mechanical energy.  N Describe.

1.Alternating current can be converted to ________ current using a ______. 2. Charges move easily through _____________ but cannot move through ___________.

Generators Mrs. Brostrom Integrated Science C. Generators II. Magnetism can create electricity – A moving conductor (wire) in a magnetic field generates.

Electromagnetic Induction N S N Voltmeter + - Stationary.

UNIT 1: ELECTRICITY AND ELECTRONICS (PART 3) TECHNOLOGIES ESO 3.

14 September 2015 Delft University of Technology Electrical Power System Essentials ET2105 Electrical Power System Essentials Prof. Lou van der Sluis The.

6.11 Vocabulary Electromagnet: type of magnet in which the magnetic field is produced by a flow of electric current Core: metal (iron) center of an electromagnet.

Chapter 22: Induction and Alternating Current pp

Jeopardy! More Magnets What about Magnets I love.

Generators To explain how a generator works to produce electric current. To explain the difference between alternating and direct current.

Forging new generations of engineers. DC Motors and Generators Instruction Plan.

17.3 Electric motors and generators

Lakshmi GopiReddy Adventures in STEM Electromagnetism.

Series and Parallel Circuits Activity. Curriculum Big Idea: Energy can be transferred between objects and/or can be converted into different forms. Concept:

Electro Magnetic Effects By Devashish Pahadi. Electro Magnetic Induction It is process in which a conductor goes through stationary magnetic field lines.

Electro- magnetic Induction Lecture 3 AP Physics.

Jeopardy Q 1 Q 2 Q 3 Q 4 Q 5 Q 6Q 16Q 11Q 21 Q 7Q 12Q 17Q 22 Q 8 Q 13 Q 18 Q 23 Q 9 Q 14 Q 19Q 24 Q 10 Q 15 Q 20Q 25 Final Jeopardy MagnetismTermsElectricityMixedCircuits.

Chapter 25 Electromagnetic Induction. Objectives 25.1 Explain how a changing magnetic field produces an electric current 25.1 Define electromotive force.

Electric Motor Project Bob McMahon Richard Shurtz.

Generating Electricity WILF: To be able to explain how kinetic energy can produce electrical energy.

Electromagnets.

1.If a magnet is moved into a coil of wire a current is induced in the wire. 2.If the magnet is moved out of the coil the direction of the current is reversed.

Physics 106 Lesson #21 Magnetism: Motors and Generators Dr. Andrew Tomasch 2405 Randall Lab

Electromagnetic Induction. Induced current/emf(voltage) Current or voltage produced by a changing magnetic field.

Electric Circuit A continuous pathway that can carry an electric current: The lights in your home are on an electric circuit.

Efficiency Efficiency = Useful energy output X 100% Energy Input Energy Input.

ELECTRICITY AND MAGNETISM Chapter Twenty-Two: Electricity and Magnetism  22.1 Properties of Magnets  22.2 Electromagnets  22.3 Electric Motors.

Welcome Back Scientists! Today: 1. Return Electromagnets Inquiry Scores 2. Discuss the Revision Process 3. Interactions between permanent and Electromagnets:

Watt’s Up?! Solar Panel Activity  Goal: Have students calculate the percentage of energy provided by the solar panels to the school  Part I: Collect.

Welcome Scientists Today: Complete Building a Motor Activity Motors Vs. Generators Electricity and Magnetism Mind-Map.

Team Pain David Brundage, Kelli Byrne, Adam Watkins, and Benjamin Wing.

Lighting Efficiency. Lighting Efficiency Problem Suppose that 25 incandescent light bulbs rated at 100 Watt are replaced by 25 fluorescent lamps rated.

Essential Question: How do electrons get transferred: Conduction Induction Friction What is the law of conservation of charge? Charges are not created.

Electromagnetism.  A moving charge creates a magnetic field  Electric current (I) is moving electrons, so a current-carrying wire creates a magnetic.

21.1 Magnets and magnetic fields

1 Conductor and Insulator Warm up Will the light bulb light up if the following items are put into the electric circuit? Predict Yes or No. 1. Plastic.

Warm-Up Pick up two sheets and packet in the back. Work on Mini Lab at your desk.

Generation of Electricity. Teacher demonstration Inducing an electric current.

Rechargeable Batteries

Natural Sciences and Technology Grade 6

Ohm’s Law & Electrical Power

Effects of Magnetic Fields and Producing Current

Electromagnetism.

Are we at the end of the year yet?

Section 16-3 Electricity from Magnetism Notes

Notes 17.1 & 17.2: Electricity, Magnetism and Motors

Simulation things to note…

17.3 Electric Motors and Generators

III. Producing Electric Current

OCR 21st Century Science Unit P5 a and b Revision

Simulation things to note…

Natural Sciences and Technology Grade 6

ELECTRICITY AND MAGNETISM

Electro-Magnetic Induction

Energy and Electromagnetism Jeopardy

Revision Quiz Bowl on Electromagnetism

Electromagnetic induction

Charging by Magnetism Since you can create a magnetic field by running electricity through a wire, can you create electricity using a magnetic field?

Presentation transcript:

Bike Generator Service Project Physics 140 Lab

Schedule 3 or 4 labs 1 group makes a bike generator The rest of the groups make an energy board Lab Activities relating to magnetic field of a wire and induction

Bike Generator Bike Bike trainer Generator pulley

Energy Board Stand Board Incandescent light bulbs Fluorescent bulbs Leaf blower Voltage gauge Current gauge

K – 12 Curriculum Demos/Activities based on lab activities to help students understand: – magnetic field of a wire – Induction – motor Develop Instructions Collect materials

School Demo and Activity Bring Bike Generator and/or energy board to a local school Coordinate with teacher Run activity with teacher’s help Provide materials and instructions Website with resources