Study Figure 10-1. the strong nuclear force felt by a single proton in a large nucleus a. is much larger than that felt by a single proton in a small nucleus. B is much smaller than that felt by a single proton in a small nucleus. vs. is about the same as that felt by a single proton in a small nucleus. D. is about the same as the electric force felt by a single proton in a small nucleus.
Explanation: The strong nuclear force is one of the four forces of nature: 1) strong nuclear force, 2) weak nuclear force, 3) electrostatic force and 4) gravity. The strong nuclear force is the strongest of the forces and is responsible for attracting protons and neutrons into the nucleus, so it is responsible for the stability of the nuclei of atoms. However, it is also a very short-range force, being able to act only at very short distances. This means that the bigger the core, the weaker the force. This is the reason for the instability of large atoms.
1) It is approximately the same as that felt by a single proton in a small nucleus. 2) A very small amount of mass 3) A nuclear power plant does not pollute the air 4) D plasma
D. is approximately the same as the electric force felt by a single proton in a small nucleus. Explanation: The nuclear force is the type of force that acts between protons and the nucleus of atoms. The strong nuclear force is one of the four fundamental forces of nature, the others being gravity, the electromagnetic force and the weak force, and it is the strongest. The strong nuclear force felt by a single proton in a large nucleus is approximately the same as that felt by a single proton in a small nucleus.
A.) is much larger than that felt by a single proton in a small nucleus.