Dynamo Engine By Thomas Landi, Peter Son, Evan Tony.

Slides:

Advertisements

Similar presentations

Electrical Systems Chapter 9.

Advertisements

The Direct Current (DC) Electric Motor

P5 Electric Circuits. Question 1 How do you generate a current in a coil of wire?

Electricity & Work Chapter 13.

Unit 4 – Electricity & Magnetism

Cells have positive and negative electrodes.

S Explain parallel circuits, components, and safety of house wiring. S Develop a formula for power consumption and solve related problems.

ELECTRICAL SYSTEMS 21.3.

Electric Circuits Chapter 20.3.

 Rate at which energy is consumed or produced  Changed into other forms of energy  Measured in WATTS (W)

Charging System Fundamentals

Electricity Foundations of Physics. Electricity The movement of charge from one place to another Requires energy to move the charge Also requires conductors.

M OBILE D EVICE C HARGER P ROPOSAL Mike, Nicole, and Nick.

Principles of Physics Electromagnetic Induction. Changing magnetic fields can create a voltage (and thus cause current to flow) in a conductor A wire.

Circuits & Electronics

Table of Contents Electricity.

P5 – Electric Circuits. Static Electricity When two objects are rubbed together and become charged, electrons are transferred from one object to the other.

Things you need to know… About the electricity and magnetism Unit Test.

Electric Current Electrical current is the flow of electrons. Unlike static electricity, charges are in motion. Two types of Current I. Direct current.

PSAA Curriculum Unit Physical Science Systems. Problem Area Energy and Power Systems.

UNIT V STUDY GUIDE Electricity & Magnetism

Electrical power. Objectives Use the equation for electrical power to solve circuit problems. Understand basic concepts for home electricity usage and.

Electricity. What is electricity? Electric current – flow of electrons through a _______ Current (I) is measured by how many __________pass a given point.

4.2.3B Electrical Power What About Watts?. Power Law Moving electrons (current) requires ENERGY How much energy gets used depends on: Strength of push.

CHAPTER Static Electricity ElectricityCircuits Measurements & Units Do the Math 600.

Electric Current and Ohms Law. Electric Current The continuous flow of electric charge –The two types of current are direct current (DC) and alternating.

Measuring Electrical Energy.  Energy: the ability to do work.  Electrical Energy: energy transferred to an electrical load by moving electric charges.

PS-6.6 Explain the relationships among voltage, resistance, and current in Ohm’s law. Key Concepts: Voltage: volt Resistance: ohm Current: amp Ohms law.

Hurray for Batteries! Energy – It’s Everywhere!. 2 Where can we find batteries? In most of our favorite gadgets: Watches Flashlights MP3 Players Cell.

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

Kenya Make Energy? By Evan Tony – Thomas Landi – Peter Son –

Task : Copy and fill in the blanks Electrons are ………….. charged sub-atomic particles. They move around the circuit through ……………. materials such as metal.

ELECTRICAL SYSTEMS. Chapter Twenty One: Electrical Systems  21.1 Series Circuits  21.2 Parallel Circuits  21.3 Electrical Power.

ELEC 3105 Basic EM and Power Engineering Rotating DC Motor PART 2 Electrical.

Electricity Unit Overview Wednesday, April 1, 2015.

The Spring Spinner By: Evan Sutton, Natalie Edgar, Kiersten White, Brandon Bowman Team B2-2.

Principles of Electricity Background to electricity, circuits, and how to calculate.

Statics, Coulomb Law, and current electricity. Friday, February 12, 2016.

You can type your own categories and points values in this game board. Type your questions and answers in the slides we’ve provided. When you’re in slide.

Magnetism and Electricity Vocabulary Week 3.  S8P5c Electromagnetism: Investigate and explain that electric currents and magnets can exert force of each.

Lesson 4.  Charge does not flow on its own. An electric charge has a certain amount of electrical potential energy because of the electric field set.

Small Engines Ignition System Ignition System Function Ignite the fuel and air mixture at the proper time. Advance and retard the ignition timing as.

Generators, Motors, Transformers

Electrical Circuits Chapter 20 Section Three. Science Journal Entry #42 Expound upon Ohm’s Law and its relationship to current, resistance, and voltage.

Unit D Section 3.0 Devices and systems convert energy with varying efficiencies.

Ohm’s Law Notes JAN 7. Vocabulary current : how quickly the electrons are flowing through the circuit; units: amperes (A) voltage : the electric potential.

Next page. The topics in this unit are: 1 – Static electricity 2 – Repulsion and attraction 3 – Electric circuits 4 – Circuit symbols 5 – Currents 6 –

Electric Current Everything (water, heat, smells, …) flows from areas of high concentration to areas of lower concentration. Electricity is no different.

Electricity Chapter 9. What Is Electricity? Electricity is a manufactured product. It is not something you pump out of the ground or mine or collect from.

Magnetism and Electricity Vocabulary 4.3

Ohms Law, current electricity, series circuits

Electrical Systems Series Circuits Parallel Circuits Electrical Power.

ELECTRICITY: Creating Current.

Magnetism and Electricity Vocabulary On-Level

Measuring Electrical Energy

ELECTRICAL CURRENT.

Electric Current, EMF and Electric Potential.

Chapter 7 section 2 Electric Current

Magnetism and Electricity Vocabulary 4.3

OCR 21st Century Science Unit P5 a and b Revision

Magnetism and Electricity Vocabulary On-Level

Electric current consists of moving electric charges.

Chapter Twenty One: Electrical Systems

Charging System Fundamentals.

Unit 7 Forces and Motion Lesson 5

Electromagnetic Induction

Presentation transcript:

Dynamo Engine By Thomas Landi, Peter Son, Evan Tony

How it Works Utilizing magnetic fields to convert mechanical rotation (via hand crank) into a pulsating direct current. The motion causes the magnetic field to push on electrons through a metal wire creating an electric current.

What We Were Given Dynamo Engine USB Volt Scale Wire to connect scale to engine Wire to plug-in to phone We used one of our phones to complete the circuit.

Mission Statement Hypothesis: If someone of average build were to crank a flashlight/radio/dynamo engine for 10 hours, then it would fully charge the phone. Mission StatementDynamo Engine Energy Experiment Product descriptionA hand cranked engine meant for charging cell phones Benefit propositionCheap, environmentally friendly energy for developing countries Key business goalHelp those in developing countries Primary MarketDeveloping country’s citizens Secondary MarketCampers needing free energy AssumptionsMentioned in next slide StakeholdersThe Group members and customers

Assumptions and Conditions We ran this experiment under normal indoor conditions. All group members were somewhat well rested and able to turn the dynamo engine with relative ease. The engine we were given was also connected to other devices, such as the flashlight and radio, so it my not have been the most efficient engine for our needs. We assumed that the iPhone 5 battery ( Kilowatt hours) would be a nice average for battery charge The person that will be using the dynamo engine will be in decent enough shape to run this engine at a brisk pace for an extended time period.

Procedure We cranked on the engine for 15 seconds and counted how many revolutions we got. Then we multiplied that number by 4 to get RPM. We had three separate trials and then took our average for our estimated RPM We then looked at the amount of amps we generated in that time and through two calculations found the energy we produced. We then looked at how much energy it took to charge the phone battery we chose and decided how long it would take to charge a phone using our calculations.

Data Three trials : 1 st : 37rotations/15sec, 2 nd :36r/15sec, 3 rd :38r/sec Average amount the average person would be able to crank in a minute: 148RPM During these trials the devices consistent output was 4.60 Volts and 0.35 Amperes

Reflection Although the engine surpassed our expectations the time it would take to charge the phone was still too long. We would want to add bigger engine but have it charged by a person on a bicycle creating more power. Allowing more people to generate the charge would help Also, having an idea of what type of phones is most popular in developing countries would be useful.

Sources Woodford, Chris. "Electricity Generators." Explain That Stuff! Chris Woodford, 21 Apr Web. 9 Sept Klug, Brian. "Apple Increases IPhone 5C and 5S Battery Sizes Relative to IPhone 5." AnandTech. AnandTech, 12 Sept Web. 08 Sept