1. George Cameron

2. Back Story  Imagine that you are in a meeting on the phone and your phone dies with no way to charge it or continue your meeting.

3. Initial Problem Statement  3 Words: Scavenging Energy Charge  Problem Statement Today’s batteries die after prolonged use without a way to quickly charge them on the spot.

4. Revised Problem Statement  Charging personal electronic mobile devices is inefficient and hard to accomplish without direct access to a power outlet.  Design a product that will harness energy in nature and process that power into a charging system

5. Article Critiques - 1  APA Citation: Qin, Y., Wang, X., & Wang, Z. L. (2008, February 14). Access : Microfibre|[ndash]|nanowire hybrid structure for energy scavenging : Nature. Nature Publishing Group : science journals, jobs, and information. Retrieved November 5, 2010, from http://www.nature.com/nature/journal  Article Summary: The article tells of a thread material that can harness kinetic motion and transfer it to a battery device. This will be critical to a mobile energy charging system.  Article Type: Technical

6. Article Critiques - 2  APA Citation: Stark, I. (2006, April 3). Invited Talk: Thermal Energy Harvesting with Thermo Life. IEEE Xplore. Retrieved November 5, 2010, from ieeexplore.ieee.org/xpl/freeabs_all.jsp?reload=true&arnumber=1612886  Article Summary: This article describes a thread system that can harness heat energy from a surface. This will be equally critical to a mobile energy charging system.  Article Type: Technical

7. Past and Current Solutions HuMo - The Human Dynamo nPower Personal Energy Generator Foot-powered cell phone charger Pros: Power from arm swing Fashionable Compact Cons: Doesn’t Charge Desh, Initials. (2010, April 06). 15 cellphone chargers that harness kinetic energy for a clean recharge. Retrieved from http://www.greendiary.com/entry/15-cellphone- chargers-that-harness-kinetic-energy-for-a-clean- recharge/ Pros: Motion Charge Simple Reusable Compatible Cons: Awkward Bulky Pros: Simple Efficient Air Powered Cons: Bulky Inconvenient Ugly

8. Patents Patent Number: 2010/0276944 Patent Description: Describes a process/system that harness power from motion of joints Pros - Compact -Efficient -Simple Cons -

9. Pros -Efficient -Recycles -Power Generating Cons -Large -Complicated -Must be maintained Patent Number: 2009/0095673 Patent Description: Describes a system of taking solid organic waste and converting it into a fuel. Patents

10. Pros -Motion Charging -Compact Cons -Backpack -Large Patent Number: 2006/0192386 Patent Description: Describes a system that harnesses the energy from the up and down motion of walking. Patents

11. Where We Are Going  A clip system that can be clipped onto almost any material and can harness kinetic motion energy.

12. Sketches

13. Power Glove  Takes the movement of fingers to rotate electromagnet creating current.  Current harnessed to charge battery.  Charge pad in the palm to wireless charge mobile device.

14. Power Suit  The material of the suit is a piezoelectric system designed to harness all movement of the body to a central power location.  Currently not feasible.

15. Power Clip  Modular design to minimize weight.  Central unit designed to process power to a battery and then to mobile device.  Most feasible.

16. Requirements Nice to Have SafeFast Charge User FriendlyCompatibility ReliableStylish Not BulkyCheap Charge Mobile Device From the survey we have given, we have discovered that the product must have the following requirements, and the nice to haves would come later.

17. Solution Justification and Product Specifications

18. Decision Matrix

19. Math and Science Concepts  PE=KE, so KE=mgh for potential vertical motion  Using the walking motion, a magnet can be accelerated up and down changing mechanical to electrical energy (V=I x R (Voltage=Current x Resistance))  The energy can then be stored in a battery for later use.

20. Summary  Key Requirement: Charge Mobile Device  Where we are going: Power Clip  Any questions?