The Strong nuclear force is what holds the protons and neutrons together in an atoms nucleus. Think of a gorilla with an atom of two protons and two neutrons together and his hands holding the atoms together.
Neutrons add mass and stability to an atom by increasing the atomic weight without changing the chemical properties. They also help to hold the nucleus together by balancing the repulsive forces between protons.
There is a stronger force, stronger than the electrostatic force, that keeps nucleons (protons and neutrons) together. It is not enough to hold two protons together if they are alone, but the neutrons provide additional attraction. This force is known as the "strong force".There is a stronger force, stronger than the electrostatic force, that keeps nucleons (protons and neutrons) together. It is not enough to hold two protons together if they are alone, but the neutrons provide additional attraction. This force is known as the "strong force".There is a stronger force, stronger than the electrostatic force, that keeps nucleons (protons and neutrons) together. It is not enough to hold two protons together if they are alone, but the neutrons provide additional attraction. This force is known as the "strong force".There is a stronger force, stronger than the electrostatic force, that keeps nucleons (protons and neutrons) together. It is not enough to hold two protons together if they are alone, but the neutrons provide additional attraction. This force is known as the "strong force".
It is usually considered to be neutrons and protons that hold most of an atom's mass, however there is one theoretical subatomic particle that is used to help explain mass, called the higgs boson particle.
A sodium atom is composed of a nucleus containing protons and neutrons, surrounded by electron shells. The nucleus contains 11 positively charged protons and usually 12-13 neutrons, while the electron shells hold 11 negatively charged electrons.
In addition to protons and neutrons, the nucleus of an atom also contains particles called electrons, which have a negative charge. Electrons are much smaller than protons and neutrons and are located in orbitals surrounding the nucleus.
An atom's nucleus sits at the center and holds the atom's protons and neutrons. The protons and neutrons are themselves made of quarks (which make the protons and neutrons) and gluons (which hold the quarks together).
well they aren't going to orbit if they have no charge. They hold the protons together. Protons, with the same charge, wouldn't stay together without neutrons.
Protons and neutrons are in nucleus. Electrons revolve around them
They hold protons or neutrons or something of that nature... - ;)
Neutrons add mass and stability to an atom by increasing the atomic weight without changing the chemical properties. They also help to hold the nucleus together by balancing the repulsive forces between protons.
Mesons hold protons and neutrons together by mediating the strong nuclear force between them. This force is carried by the exchange of mesons between quarks inside the protons and neutrons. The strong nuclear force is responsible for binding protons and neutrons together in the atomic nucleus.
The positive part of the nucleus is the protons, which have a positive charge. Protons are located within the nucleus of an atom, along with neutrons. The positive charge of the protons helps hold the nucleus together through electromagnetic forces.
The strong nuclear force holds together protons and neutrons in the nucleus of an atom. It is one of the fundamental forces in nature that overcomes the electromagnetic repulsion between positively charged protons, binding them together in a stable nucleus.
The primary role of the neutrons in the nucleus of an atom is to contribute to the binding energy or nuclear glue that holds the nucleus itself together. Recall that an atomic nucleus is made of protons and neutrons. Protons have a positive charge, and they don't like each other. In order to overcome the repulsive forces of the protons, neutrons are included in the structure to contribute to the so-called mass deficit. That phenomenon involves the nucleons (the protons and neutrons in a nucleus) losing a bit of mass that is converted into binging energy to hold the neucleus together.
Neon, with an atomic number of 10, and an atomic mass of roughly 20, will require 10 protons, neutrons, and electrons. The protons and neutrons will be inside the nucleus, or the center of the atom. The electrons will be outside the nucleus in the electron cloud, where a first ring or level will hold 2 and the second will hold 8.
The two forces that hold an atom together are the electromagnetic force, which causes attraction between protons and electrons, and the strong nuclear force, which binds protons and neutrons together in the nucleus.
Protons are located in the nucleus of an atom, along with neutrons. They have a positive charge, which helps hold the nucleus together due to electromagnetic forces. Electrons, which have a negative charge, orbit the nucleus in specific energy levels.