Nothing is wrong; but plutonium is very toxic, radioactive - dangerous.
Nuclear energy is obtained from the process of nuclear fission, where the nucleus of an atom is split into smaller parts, releasing a large amount of energy. This process is typically carried out in nuclear power plants using uranium or plutonium as fuel.
Plutonium 239 is obtained in all reactors using uranium as nuclear fuel.
Nuclear fission releases energy by splitting the nucleus of an atom, typically uranium or plutonium. This process generates a large amount of heat, which is used to produce steam and drive turbines to generate electricity. While nuclear fission is a powerful and efficient source of energy, it also produces radioactive waste that needs to be carefully managed to prevent environmental harm. Additionally, the risk of accidents and the potential for nuclear proliferation are important considerations when using nuclear fission for energy production.
Nuclear power plants use nuclear energy as their source of power. They harness the energy released from nuclear reactions (such as fission) to generate electricity. The heat produced by these reactions is used to create steam, which drives turbines to generate electricity.
The main source of solar energy is the sun. Solar energy is generated by the sun's nuclear fusion reaction, which releases energy in the form of electromagnetic radiation, including light and heat. This energy reaches Earth in the form of sunlight, which can be harnessed using solar technologies for a variety of applications.
Spacecraft using nuclear power use the heat energy of Plutonium-238. The heat energy of the radioactive pellet of Plutonium-238 is converted into electricity.
Uranium is a nuclear fuel for nuclear power reactors.
Applications of plutonium: * nuclear fuel in nuclear power reactors; can contribute to use uranium-238 which is fertile.Disadvantages of plutonium:- plutonium is radioactive - plutonium is toxic - plutonium is flammable - in some conditions (of mass and geometric form) plutonium can reach the critical mass
It does not pollute and is a very cost-effective energy source.
Nuclear energy is obtained from the process of nuclear fission, where the nucleus of an atom is split into smaller parts, releasing a large amount of energy. This process is typically carried out in nuclear power plants using uranium or plutonium as fuel.
Being a fissionable material plutonium is used as nuclear fuel in nuclear power reactors or as an explosive in nuclear weapons. The nuclear fission release a formidable quantity of energy.
Plutonium 239 is obtained in all reactors using uranium as nuclear fuel.
Nuclear fission releases energy by splitting the nucleus of an atom, typically uranium or plutonium. This process generates a large amount of heat, which is used to produce steam and drive turbines to generate electricity. While nuclear fission is a powerful and efficient source of energy, it also produces radioactive waste that needs to be carefully managed to prevent environmental harm. Additionally, the risk of accidents and the potential for nuclear proliferation are important considerations when using nuclear fission for energy production.
Hydrogen is not a renewable fuel. It is a secondary energy source (or an energy carrier) that could be produced using another primary energy source. Hydrogen could be produced using either renewable primary energy source (e.g. solar energy), nuclear energy, or by using fossil fuel (e.g. natural gas)
The kWh produced by nuclear energy is the cheapest. It is a clean energy that does not pollute the environment. It gives chance for people to work during its construction and operation. It is reliable source of energy.
Expensive to build, cheaper to run than using fossil fuels once it is built.
Nuclear power plants use nuclear energy as their source of power. They harness the energy released from nuclear reactions (such as fission) to generate electricity. The heat produced by these reactions is used to create steam, which drives turbines to generate electricity.