Once it has been generated by a nuclear power plant, nuclear power is transmitted through high voltage power lines, just like any other form of electric power.
heat
Nuclear energy as used in power plants results from fission of uranium235 and plutonium239
Bcoz production of nuclear energy form harmful radioactive elements.
No, nuclear power and uranium are not the same. Nuclear power is a form of energy that is generated through nuclear reactions, while uranium is a radioactive element that is commonly used as fuel in nuclear power plants. Uranium is not the only fuel source for nuclear power, but it is the most commonly used.
Nuclear energy is a form of potential energy that is stored in the nucleus of an atom. When atoms are split in a process called nuclear fission, a large amount of energy is released, which can be harnessed to generate electricity in nuclear power plants.
The original source of nuclear power is the nuclear fission process. This process involves splitting the nucleus of an atom, such as uranium or plutonium, which releases a large amount of energy in the form of heat. This heat is then used to generate electricity in nuclear power plants.
Uranium and plutonium are the most commonly used elements in nuclear power plants. These elements undergo nuclear fission, releasing energy in the form of heat, which is then used to produce electricity.
A nuclear fission reaction occurs in a nuclear power plant. This is the process where the nucleus of an atom is split, releasing large amounts of energy in the form of heat, which is used to generate electricity.
See www.world-nuclear.org for country by country information:INFORMATION PAPERSNUCLEAR BASICSOutline History of Nuclear Energy The Nuclear Debate GlossaryFACTS AND FIGURESWorld Nuclear Power Reactors 2008-09 and Uranium Requirements Nuclear share figures, 1998-2008 - May 2009 Uranium production figures, 1998-2008 - June 2009COUNTRY AND REGIONAL BRIEFINGSUranium in Africa Nuclear Power in Argentina Nuclear Power in Armenia Australia's Uranium Nuclear Energy Prospects in Australia Nuclear Power in Belgium Nuclear Power in Brazil Nuclear Power in Bulgaria California's Electricity Nuclear Power in Canada Nuclear Power in Canada Appendix 1: Ontario Energy Policy Nuclear Power in Canada Appendix 2: Alberta Tar Sands Uranium in Canada Uranium in Canada Appendix 1: Brief History of Uranium Mining in Canada Uranium in Central Asia Nuclear Power in China Nuclear Power in China Appendix 1: Government Structure and Ownership China's Nuclear Fuel Cycle Nuclear Power in Czech Republic Nuclear Energy in Denmark Nuclear Power in Finland Nuclear Power in France Nuclear Power in Germany Nuclear Power in Hungary Nuclear Power in India Nuclear Energy in Iran Nuclear Power in Italy Nuclear Power in Japan Uranium and Nuclear Power in Kazakhstan Nuclear Power in Korea Nuclear Power in Lithuania Nuclear Power in Mexico Uranium in Namibia Nuclear Energy Prospects in New Zealand Nuclear Power in the Netherlands Uranium in Niger Nuclear Power in Pakistan Nuclear Power in Romania Nuclear Power in Russia Nuclear Power in Slovakia Nuclear Power in Slovenia Nuclear Power in South Africa Nuclear Power in Spain Nuclear Power in Sweden Nuclear Power in Sweden Appendix 1: Barsebäck Closure Nuclear Power in Switzerland Nuclear Power in Taiwan Nuclear Power in the United Kingdom Nuclear Power in Ukraine Nuclear Power in United Arab Emirates Nuclear Power in the USA Nuclear Power in the USA Appendix 1: US Operating Nuclear Reactors Nuclear Power in the USA Appendix 2 Power Plant Purchases: Nuclear Power in the USA Appendix 3: COL Applications US Nuclear Fuel Cycle US Nuclear Fuel Cycle Appendix 1: US Uranium Mining and Exploration US Nuclear Power Policy Emerging Nuclear Energy Countries
Nuclear energy is harnessed in nuclear power plants, where nuclear reactions generate heat to produce electricity. This form of energy is used to generate about 10% of the world's electricity, with countries such as the United States, France, and China having significant nuclear energy capacity.
nuclear power