Yes, as heat and radiation
Nuclear fission actually releases first fission fragments and other particles with kinetic energy, which then turns to heat as the ejected fission fragments and part of the particles are slowed down within the mass of the solid fuel.
Nuclear binding energy is released mostly as heat energy.
Heat is produced by the recoil (kinetic energy) of the fission fragments, when they are stopped in the fuel material
The heat energy resulting from nuclear fission is used to produce steam that spins the turbine.
The energy of fission of fissile atoms is transformed in heat and electricity.
When uranium is brought together in sufficient quantities, the radiation it naturally gives off produces a chain reaction (in which the nuclear particles produces by the breakdown of uranium nuclei interact with other nuclei and cause them to break down as well). This reaction produces a tremendous amount of heat as a by-product. This heat is used to heat a quantity of water, and the resulting steam drives turbines which produce electricity.
The heat released by nuclear fission is transformed in electrical energy.
Nuclear binding energy is released mostly as heat energy.
nuclear fission
Heat is produced by the recoil (kinetic energy) of the fission fragments, when they are stopped in the fuel material
From heat released when nuclei of uranium 235 undergo fission
Energy is released in nuclear fission and fusion, this is a fact of the physics of the nucleus. This energy can be captured and harnessed as thermal energy (heat)
By heat released from continuous nuclear fission and fusion process.
Initially as radiation (all types), most of which becomes heat.
Initially as kinetic energy of the fission fragments, but this is quickly converted to thermal energy as they are slowed down in the mass of the fuel.
Initially as kinetic energy of the fission fragments, but this is quickly converted to thermal energy as they are slowed down in the mass of the fuel.
Uranium-235 react with thermal neutrons in a nuclear reaction called fission. The enormous energy released by the nuclear fission can be transformed in electricity and heat in nuclear reactors.
In a nuclear power plant, heat is created by nuclear fission. In nuclear fission, a uranium atom is split, and incredible heat, light, and radioactive energy is released. The heat is used to boil water, and the steam from that water turns a turbine which produces electricity.