The energy released when a nuclear power plant generates heat to generate steam to generate electricity. The energy released when a nuclear weapon detonates.
StrongWeakElectromagneticThe 4th force is gravity, but it seems to play no part in nuclius.
Strong nuclear force is the force that keeps the protons and neutrons in the nucleus of an atom. Being stronger than the electromagnetic force at very close distances, the strong nuclear force prevents the protons from repelling. Even more fundamentally, the strong nuclear force binds quarks together, which are the fundamental constituents of protons and neutrons.
Nuclear binding energy, more correctly called nuclear force or residual binding energy, is released when a nucleus transitions from a state requiring more nuclear force to one requiring less nuclear force. An example is where a heavy nucleus such as uranium is split into two lighter nuclei. Another example is where two light nuclei, such as hydrogen, is fused in to a heavier nucleus. In both cases, the nuclear force required to sustain the result is less than the original component(s), and the differential nuclear force (and the corresponding mass) is released.
gravitational force electrostatic force weak nuclear force strong nuclear force
gravitational force electrostatic force weak nuclear force strong nuclear force
-- gravity -- electrostatic force -- weak nuclear force -- strong nuclear force
a nuclear force that is stronger than normal
electromagnetic force strong nuclear force weak nuclear force gravitational force
Gravity, Electromagnectic Force, Strong Nuclear Force and Weak Nuclear Force.
The force between nucleons is called nuclear force.
The strongest force known is called the "strong force" or "strong nuclear force".
The majority of the fallout consists of hot beta emitters.