All atoms are held together by electric forces?

Leora Turcotte asked a question: All atoms are held together by electric forces?
Asked By: Leora Turcotte
Date created: Sat, Mar 20, 2021 8:47 PM
Date updated: Sun, Aug 7, 2022 11:11 AM


Top best answers to the question «All atoms are held together by electric forces»

  • The particles within an atom are not held together by the electromagnetic force. As a matter of fact, since particles in the nucleus of an atom have the same charge, the electromagnetic force would would tear atoms apart, not hold them together. Atoms are held together by the strong-nuclear force.

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The forces that hold atoms together are the electrical force and the strong force, which is stronger than the electrical force. The electrical force does the majority of the work of holding atoms together, but the strong force helps hold in the electrical force and can somewhat override it.

The atoms of a molecule are held together by forces of attraction called intermolecular forces. Three types of intermolecular forces are ionic, covalent and metallic.

It has three subatomic particles - electron, proton and neutron. These subatomic particles are held the atom together by some forces. Answer and Explanation: 1 Everything in this universe is...

The electrical force. It exists between oppositely charged particles called protons (+) and electrons (-). The much much heavier protons are held together by another even stronger force called the strong force, and together with heavy neutrons they form the nucleus. 296 views

such as wood or glass, all the electrons are bound to nearby atoms and none can move freely. These materials are called insulators. In a single atom of copper, 29 electrons are bound to the nucleus by the electrostatic attraction between the negatively charged electrons and the positively charged nucleus. The

Hydrogen is a stable composite object made from a proton and an electron, bound together by interacting with the electric field. Why is it stable? Any object that is not stable will decay; and a decay is only possible if the sum of the masses of the particles to which the initial object decays is less than the mass of the original object.

Quantum chromodynamics, the force that holds protons together, is modeled closely on quantum electrodynamics, the force that holds atoms together—but the gluons change screening to antiscreening, intuitive to bizarre.

Oppositely charged particles attract each other, while like particles repel one another. · Electrons are kept in the orbit around the nucleus by the electromagnetic force, because the nucleus in the center of the atom is positively charged and attracts the negatively charged electrons.

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