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GO GREEN mainly focused on utilizing the natural resource (Solar Energy) which has been wasted in huge amount. There are only some nations has been using this solar power resource as alternate power energy. Using this application create awareness for the people to use renewable energy as alternate energy to save the electricity. This application supports people to implement solar power energy in their home with the help of the state government subsidy and the government schemes for solar power implementation in home and the industrial plans. This application depicts the details of the Products such us solar panels, solar water heater, solar home lights, etc. In addition to that it will calculate the amount of hardware required for the implementation of the solar product for the energy consumed by the house hold appliances, Green Village, solar school.

Solar Energy, Green India, Environment, House Hold Appliances, Green Village, Solar School, Solar Panels, Solar Water Heater, Solar Home Lights, Government Subsidy, Renewable Energy.

. AIA Research Corporation; Solar Dwelling Design Concepts; Washington, D.C.

. Asimov, Isaac; Understanding Physics: The Electron, Proton, and Neutron; Scarborough, Quebec: New American Library of Canada Ltd.; 1969

. Clark, Wilson; Energy for Survival: The Alternative to Extinction; Garden City, NY: Anchor Press; 1974

. Duffie, John A. & Beckman, William A.; Solar Energy Thermal Processes; New York, NY: John Wiley & Sons; 1974

. Ewers, William L.; Solar Energy: A Biased Guide; Northbrook, IL: Domus Books; 1979

. Kuecken, John A.; How to Make Home Energy From Wind, Water & Sunshine; Blue Ridge Summit, PA: Tab Books; 1979

. Kut, David & Hare, Gerald; Applied Solar Energy; New York, NY: Halsted Press; 1979

. Moore, Taylor; "Opening the Door for Utility Photovoltaics", EPRI Journal, Jan./Feb. 1987; Palo Alto, CA; 1987

. Financing Renewable Energy Projects: A guide for development workers, Jenniy Gregory, Semida Sileira, Anthony Derrick, Paul Cowley, Catherine Allinson & Oliver Paish, IT Publications, 1997. ISBN 1 85339 387 8.

. O'Hanian, Hans C.; Physics; New York, NY: W. W. Norton & Co.; 1985

. Modelling of solar energy potential in Nigeria using an aritificial neural network model. D.A. Fadare. Applied Energy, 2009.

. Prediction of flat-plate collector performance parameters using artificial neural networks. Soteris A. Kalogirou: Solar Energy, 2006.

. PV education. Solar Power Labs at ASU Arizona State University.[Online] http://pvcdrom.pveducation.org/main.html.

. Muneer, T. Solar Radiation and Daylight models. s.l. : Reed Education and Professional Publishing Ltd., 1997.

. Masters, Gilbert M. Renewable and Efficient Electric Power Systems. s.l. : John Wiley & Sons, Inc., 2004.

. NUS Geography Weather Station. [Online] NUS Geography Department. http://courses.nus.edu.sg/course/geomr/front/fresearch/metstation/index. html.

. Geomagnetism Calculator. Natural Resources Canada. [Online] http://gsc.nrcan.gc.ca/geomag/index_e.php.

. Clearness Number and Diffuse Factor of the meteorological conditions in Singapore. Wah, Bong Tet Yin and Wong Yew. 5, s.l. : The Insitution of Engineers, Singapore., 2004, Vol. 1.

. Soteris Kalogirou. Introduction to Artificial Intelligence in Energy and Renewable Energy Systems: Nova Science Publishers, Inc. 2007.

. Performance of the meteorological radiation model during the solar eclipse of 29 March 2006. B. E. Psiloglou and H. D. Kambezidis.

. Artificial neural networks applied in PV systems and solar radiation. Leocadio Hontoria, Jorge Aguilera, Florencia Almonacid, Gustavo Nofuentes and Pedro Zufiria: Artificial Intelligence in Energy and Renewable Energy Systems. Nova Science Publishers, Inc. 2007.

. Renewable Energy: Power for a sustainable future, Godfrey Boyle, Oxford University Press, 2000. ISBN 0 19 856451 1.

. Fuel Cell Handbook, Sixth Edition, U.S. Department of Energy, National Energy Technology Laboratory, Strategic Center for Natural Gas, November 2002.

. Halls, J.J. and R.H. Friend, Organic Photovoltaic devices, in Clean electricity from photovoltaics, M.D. Archer and R. Hill, Editors. 2001, Imperial College Press: London.

. Gregg, B.A., The photoconversion mechanism of excitonic solar cells. Mrs Bulletin, 2005. 30(1): p. 20-22.