Describes why the nucleus doesn't fly apart
WebApr 5, 2024 · The nucleus (plural, nuclei) is a positively charged region at the center of the atom. It consists of two types of subatomic particles packed tightly together. The particles are protons, which have a positive electric charge, and neutrons, which are neutral in … WebMay 28, 2024 · It would fly off (if let loose) with huge acceleration. If only the electric force was present. So there has to be another very strong force keeping them together. Once the protons have reached a certain (very small) distance, this strong force kicks in, but it will not fuse the protons. Therefore the electric repulsion is too big.
Describes why the nucleus doesn't fly apart
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WebThe electric force of repulsion between protons is a long-range force, while the attractive strong nuclear force is short-range. Repulsion wins for larger nuclei. Why doesn't the repulsive electrical force of protons in the atomic nucleus cause the protons to fly apart? The attractive strong nuclear force holds the nucleus together. WebIf the nucleus is full of positively charged protons, why doesn't it fly apart? This is a very good question. The electromagnetic force causes repulsion between like charges, so it makes sense that protons should all repel each other and blow the nucleus apart.
WebFeb 5, 2003 · The nucleus does not fly apart because of the strong nuclear force. There is a huge amount of energy locked into the nucleus of an atom - this is where the energy for nuclear reactors and bombs is obtained. This energy keeps protons and neutrons from flying apart. The reasons why the atom does not collapse are comlicated. WebSep 23, 2024 · So why doesn't the nucleus fly apart? An even stronger force - called the strong nuclear force - holds protons and neutrons together in the nucleus. amu in gram and kilogram 1 amu = 1.6605 × 10 −24 g = 1.6605 × 10 −27 kg Atomic Number Negative and positive charges of equal magnitude cancel each other out.
WebWhy doesn't electrostatic repulsion cause the nucleus to fly apart? Because gravity overcomes electrostatic forces inside the nucleus Because the electrostatic force is … WebWhy doesn't electrostatic repulsion cause the nucleus to fly apart? Because gravity overcomes electrostatic forces inside the nucleus Because the electrostatic force is turned off inside the nucleus Because the short range strong force acts to attract protons and neutrons to one another Because Show transcribed image text Expert Answer Answer.
WebThe nuclei of most atoms contain multiple protons. Each proton has a positive charge. If objects that have like charges repel each other, why do the protons in the nuclei of most atoms not fly apart? The charges of protons and neutrons cancel each other out. Electrons outside the nucleus push on protons.
Webthe presence of a strong attractive force between nucleons in the nucleus prevents protons from repelling out of the nucleus. Why is a larger nucleus generally less … grasps learningWebIf objects that have like charges repel each other, why do the protons in the nuclei of most atoms not fly apart? A:The charges of protons and neutrons cancel each other out. B:Electrons outside the nucleus push on protons. C:A strong nuclear force between an atom's protons and neutrons holds together the atom's nucleus. grasps in educationWebAug 25, 2024 · Electrostatic repulsions between positively charged protons would normally cause the nuclei of atoms (except H) to fly apart. In stable atomic nuclei, these repulsions are overcome by the strong nuclear force, a short-range but powerful attractive interaction between nucleons. chitlins childrenWebNeutrons increase the stability of a nucleus because they attract other nucleons by the strong nuclear force, and they do not repel other nucleons by the electric force. After the size of a nucleus reaches a certain point, the neutrons become unstable. grasps meaning educationWebSep 20, 2024 · Why don't they push each other apart? Physicists postulate a strong nuclear force that acts at very short distances. At these distances the attraction between protons is greater than the force causing the positive charges to push each other away. Neutrons are also involved in this process somehow. grasps handwritingWebThe size of the nucleus is on the order of 0.00000000000004 inches (or 10-15m). This is a number so important in physics that it has its own name- the femtometer (fm). Scattering … chitlins con carne bass tabWebThe nucleus has potential energy not binding energy. One final concept we need to look at is ‘mass defect’. A nucleus doesn’t ‘have’ binding energy. Binding energy is the energy you put in if you happen to want to pull the nucleus to pieces. The energy that a nucleus has, separate from anything we do to it, is its potential energy. chitlins child