Magnet Flashlight Project Faradays Law Image Faradays law

Magnet Flashlight Project

Faraday’s Law (Image: Faraday's law of Electro magnetic induction). http: //3. bp. blogspot. com/83 CHCQk. Xub. A/T 5 VB 6 vm_qr. I/AAAAAW 4/w. NLm 5 Hl. B 6 k. Q/s 1600/faradyanim. gif

Applications of Faraday’s Law Turbines powered by Coal Nuclear Natural Gas Wind Water Sun

Description of Experiment Using Faradays law to produce voltage The coil is wrapped inside of the flashlight and the magnets that will be shaken to pass through the coil, inducing a charge of a certain magnitude We want to show that the stronger the magnets, the higher is the induced voltage.

Purpose of Experiment If we are able to determine which change, either the different magnets or the amount of magnets leads to a bigger voltage change, then we could tap into the energy source for the future. Tapping into this new force would cutback CO 2 emissions and open a brand new door of renewable energy.

Results We shook the magnets as hard as we could for 30 seconds, below are the results: One magnet = 4. 5 volts Two normal magnets = 5. 4 volts Two strong magnets = 6. 5 volts

Conclusion In conclusion we learned that more magnets lead to more voltage induced into the coil. Stronger magnets also lead to more voltage induced into the coil