ARTICLES

Fusion and fission are both energetic reactions that take place on the level of the atomic nucleus. Both processes entail the transmutation of the original element into another lighter or heavier element, and both releas...

www.reference.com/article/fusion-fission-common-eb42034065f7487

The sun burns due to a nuclear fusion reaction that leads to the release of heat and light energy. It may seem paradoxical to some students that the sun can burn in space, an environment without oxygen, but it is burning...

www.reference.com/article/fusion-reaction-occurs-sun-adaccafd0bbf77a3

Nuclear fusion plays a vital role in the continuance of life on Earth because it is the means of energy production employed the sun. If the sun was unable to fuse lighter elements into heavier elements through the thermo...

www.reference.com/article/nuclear-fusion-important-868396602e0364

SIMILAR ARTICLES

Although both atomic and nuclear bombs derive their immense power from reactions that take place in the nucleus of the atom, they do so in different ways. As the terms are most commonly used, an atomic bomb derives its e...

www.reference.com/article/difference-between-atomic-bomb-nuclear-bomb-425bcde0951c6b1

Nuclear fusion takes place in the sun's core. The core is where the temperature of the sun is hot enough for nuclear fusion to take place.

www.reference.com/article/sun-nuclear-fusion-occur-3e7b8c87b67a7c98

Both mitosis and binary fission are types of cell division, but mitosis occurs in cells with a nucleus (eukaryotic cells) while binary fission takes place in cells that lack a nucleus (prokaryotic cells). Mitosis is a mo...

www.reference.com/article/difference-between-mitosis-binary-fission-5d7a8df656509416

Nuclear power stations generate electricity through the fission, or splitting, of uranium atoms inside the reactor core, which generates extreme amounts of heat. The core is surrounded with water, which boils due to the ...

www.reference.com/article/nuclear-power-station-work-a0d05ca328cc9808