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The strong nuclear force is, at short distances, FAR stronger than the electromagnetic force. If it wasn't, protons in the nucleus would fly apart.
The force binding the nucleus of an atom is the strongest fundamental force in nature. There are four fundamental forces in nature. These are the electromagnetic force gravity, the strong nuclear force, and the weak nuclear force. Of these, the strong nuclear force, which binds together the nucleons (neutrons and protons) of atoms, is by far the strongest. It is over 100 times as strong as the electromagnetic force, which, in turn, is far stronger than gravity or the weak nuclear force.
Nuclear bombs release energy from the nucleus of the atom, which is held together by the Strong Force. Conventional bombs release energy from the electron cloud of the atom, which is held to the nucleus by the Electromagnetic Force. The Strong Force is thousands of times stronger than the Electromagnetic Force and thus releases thousands of times as much energy.
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.
The strong nuclear force is responsible ofmaintainingprotons and neutrons within the nucleus (its range is short) while the electromagnetic force is responsible of maintaining the electrons around the nucleus.
The strong nuclear force is, at short distances, FAR stronger than the electromagnetic force. If it wasn't, protons in the nucleus would fly apart.
Nuclear weapons take their energy from the Strong Nuclear force that holds the atomic nucleus together.Conventional weapons take their energy from the Electromagnetic force that holds electrons in orbitals around the atomic nucleus.The Strong force is a couple thousand times stronger than the Electromagnetic force.
a nuclear force that is stronger than normal
a nuclear force that is stronger than normal
The force binding the nucleus of an atom is the strongest fundamental force in nature. There are four fundamental forces in nature. These are the electromagnetic force gravity, the strong nuclear force, and the weak nuclear force. Of these, the strong nuclear force, which binds together the nucleons (neutrons and protons) of atoms, is by far the strongest. It is over 100 times as strong as the electromagnetic force, which, in turn, is far stronger than gravity or the weak nuclear force.
Nuclear bombs release energy from the nucleus of the atom, which is held together by the Strong Force. Conventional bombs release energy from the electron cloud of the atom, which is held to the nucleus by the Electromagnetic Force. The Strong Force is thousands of times stronger than the Electromagnetic Force and thus releases thousands of times as much energy.
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.
Strong nuclear force is the force that keeps the protons and neutrons in the nucleus of an atom. Being stronger than the electromagnetic force at very close distances, the strong nuclear force prevents the protons from repelling. Even more fundamentally, the strong nuclear force binds quarks together, which are the fundamental constituents of protons and neutrons.
The strong nuclear force is responsible ofmaintainingprotons and neutrons within the nucleus (its range is short) while the electromagnetic force is responsible of maintaining the electrons around the nucleus.
The nuclear membrane nuclear membrane strong nuclear force, stronger than electrostatic repulsion
The characteristic of a nuclear force is that it is only felt among hadrons and is stronger than the Coulomb force at short distances.
Static electromagnetic force is many, many billions of times stronger than gravitational force.