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the neutron keeps the nucleus together. it also binds protons together in the nucleous
The entirety of forces used in Physics is long and strenuous, but the forces from which these deviate from are called the Four Fundamental Forces or Interactions These are; The Strong Nuclear Interaction which binds nuclei and quarks together, the The Weak Nuclear Interaction which is responsible for radiation, The Electromagnetic Force which is, obviously, responsible electricity and magnetism, and Gravitation
The force that binds electrons to nuclei to form atoms is usually called the electrostatic force or the Coulomb force; the magnitude of the force can be calculated using Coulomb's law.
The energy is obtained from the Strong Nuclear Force, which binds the atomic nucleus together, not the Electromagnetic Force, which binds electrons to the atom. The Strong force is about 1000 times stronger than the Electromagnetic force, therefore can provide about 1000 times the energy of a chemical reaction/explosion using a similar mass of fuel.
Protons and neutrons together in the nucleus
the neutron keeps the nucleus together. it also binds protons together in the nucleous
That attraction is described mathematically by Coulomb's Law.
The entirety of forces used in Physics is long and strenuous, but the forces from which these deviate from are called the Four Fundamental Forces or Interactions These are; The Strong Nuclear Interaction which binds nuclei and quarks together, the The Weak Nuclear Interaction which is responsible for radiation, The Electromagnetic Force which is, obviously, responsible electricity and magnetism, and Gravitation
nuclei because a chemical bond is a mutual attraction between the NUCLEI and valence ELECTRONS of different atoms that binds the atoms together
collagen binds skin cells together.
The theme is the constant thread that binds a work of fiction together.
The theme is the constant thread that binds a work of fiction together.
Yes. The strong interaction (or strong force) holds or binds quarks together. As you recall, quarks make up protons and neutrons. In cases where hydrogen nuclei have a neutron or two, residual strong interaction holds the neutron(s) to the proton. Some of the mass of the nucleons, which protons and neutrons when we are talking about them as components of an atomic nucleus, is converted into nuclear binding energy or nuclear glue to hold the nucleus together.
Protons and neutrons are held together by the strong nuclear force, they have an attraction towards each other that overpowers the electromagnetic force that repels them. This strong interaction, as it is also known, only works over short distances, microscopic to be exact.
Binds together..Relieves the burden.
The force that binds electrons to nuclei to form atoms is usually called the electrostatic force or the Coulomb force; the magnitude of the force can be calculated using Coulomb's law.
ionic bonds