there is growing interest within the fusion community in revisiting the concept of the fusion–fission hybrid reactor. But how soon could such reactors be realized, and could they meet the ...

Unlike conventional nuclear power, which relies on fission, fusion has the potential to provide a nearly limitless and carbon-free energy source. Fusion differs fundamentally from the nuclear ...

The amount of energy produced from fusion is very large — four times as much as nuclear fission reactions — and fusion reactions can be the basis of future fusion power reactors. Plans call for ...

Energy obtained from fusion and fission reactions is based on differences in the nuclear binding energy. The mass of the products of a fusion reaction is smaller than the mass of its reactants. The ...

If we achieve advanced nuclear, antimatter propulsion or other advance propulsion it would be possible to achieve near constant acceleration. This would ...

To most of the U.S. public the hydrogen bomb was still a direful novelty last week, but to scientists there was little new about it. Long before the discovery of uranium fission they had known ...

fission reactors and nuclear fusion. If you struggled with the quiz, don't panic - we've got you! You can revise nuclear fission and fusion by clicking the links below.

Both fusion and fission reactors create heat that would power turbines to create electricity. Fission, used in the country's ...

In this video, Jonny Nelson introduces an animated explanation of fission and fusion. The nuclei of atoms contain a large amount of energy. Releasing this energy could free the world from having ...