The helium atom has two neutrons and two protons in its nucleus, and it has two electrons outside its nucleus. Which force keeps a helium atom from disintegrating into two neutrons and two hydrogen atoms?. . A. electromagnetic. B. gravity. C. strong nuclear. D. friction. .

the one that forces keeps a helium atom from disintegrating into two neutrons and two hydrogen atoms would be : C. Strong nuclear

In order to do this, you need a really strong force, which eliminate option A and D. And Gravity is not strong enough to deal with microscopic substance, so i believe strong nuclear is the answer

hope this helps

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Edufirst Edufirst · Answer 2 · 2018-08-03T05:04:57+02:00

Answer: option C. Strong nuclear

Explanation:

1) There are four fundamental interactions or forces: electromagnetic force, gravity, strong nuclear, and weak nuclear.

2) Elctromagnetic force is the force between an electric field and a charge. When two charges are equal, either positive or negative, the electromagnetic force is repulsive. This is the force that makes the atom nuclei unstable, because the several protons (from 1 to 118 depending on the element) are together in a tiny space. Hence, it is necessary another stronger force that overcomes the repulsion and keeps the atoms from desintegrating.

3) Gravity is the force between two masses. It is only important when the masses are big (like the masses of the Earth and the Mooon). It is not relevant in the protons because the mass of a proton is very small.

4) Strong nuclear force: is the force that gives stability to the atomic nucleii. The strong nuclear force has a very small range, and it is the very strong at the nucleii sizes, where it is more than 100 times stronger than the electromagnetic repulsive force between the protons.