produced when billions of nuclei from uranium, a radio active element, split apart in a nuclear fission reaction. :D
By: Chelsea, a dumb blonde (:
no it is not once used its gone
the kind of energy produced when billions of atomic nuclei from uranium are split in a fission reacion
I assume it's an incorrect spelling of "nuclear charge".
* thermal energy * chemical energy * nuclear energy * mechanical energy * magnetic energy * electrical energy * radiant energy * elastic energy * sound energy * luminous energy * gravitational energy
here are some: -Linear Kinetic energy -Rotational Kinetic energy -Heat energy -Atomic energy -Electrical energy -Sound energy -Solar energy -Wind energy -Tidal energy -Wave energy -Hydro energy -Nuclear energy -Succesive ionization energy
no it is not once used its gone
the kind of energy produced when billions of atomic nuclei from uranium are split in a fission reacion
Atomic energy is released during a nuclear reaction during fission or fusion. It is released by the nucleus of an atom and can also be a result of radioactive decay.
The sum of mass and energy, the energy being related to mass by Einstein's equation e = mc2, where e is energy, m is mass and c is the speed of light in vacuum.
burns hydrogen by the action of necular fusion
I assume it's an incorrect spelling of "nuclear charge".
A country's total number of atomic bombs, or even hydrogen bombs in stock
the sun creates light in a process called thermonuclear reactions.like, necular fusion.
The Necular or Atomic Bomb. Two dropped on Japan. One was dropped on Hiroshima, hope this helps you guys a little.
nuclear power stations r bad for the environment because they can leak waste into our enbvironment and then kill our trees and life and then we will have less oxygen and we will all DIE! o and if they go critical then we will a go BOOM BOOM
The binding energy (Strong Atomic Force) released is much greater when fusion occurs than when fission occurs. As an example, that is why fission bombs typically have yields around 100 to 500 kilotons of equivalent TNT, while fusion bombs typically have yields in the 25 to 50 megaton range. The problem is that fusion requires a lot of energy to initiate - in fact, most fusion bombs use a fission bomb to set them off.
New stations normally get a 40 year licence from the NRC, but there is usually scope to extend this perhaps to 60 years later in life. Some components like steam generators can be replaced if required and economic to do so