The force that keeps protons and neutrons bound together within the atomic nucleus is called the "strong nuclear force" or "strong interaction." The strong nuclear force is one of the fundamental forces of nature and is responsible for holding the nucleus together despite the electric repulsion between positively charged protons.
The strong nuclear force is mediated by particles called "gluons." Gluons are the carriers of the strong force and interact with quarks, which are the elementary particles that make up protons and neutrons.
The strong force is unique in that it becomes stronger as particles get closer together, thus overcoming the electromagnetic repulsion between protons.
The strong force is crucial for the stability of atomic nuclei and plays a significant role in nuclear physics. It is responsible for binding protons and neutrons together to form the nucleus and is also involved in processes such as nuclear reactions and nuclear energy production.
The force that holds protons and neutrons inside the nucleus is officially called the strong nuclear force. This is one of the four fundamental forces of the universe (the others being gravitation, the weak nuclear force, and the electromagnetic force). Scientists are still trying to work out exactly why these forces exist. It has been hypothesized that the basic forces of the universe came into being at the time of the Big Bang and are essentially a random byproduct of that event.
Protons are found in the nucleus of an atom, which is located at the center. Neutrons are also found in the nucleus along with protons.
The residual strong force. The strong force (or color force) is what holds quarks together to form protons and neutrons. The residual strong force then holds the protons and neutrons together in the nucleus.
The strong nuclear force.
electrostatic forces
Well scientifically speaking the strong force causes protons and neutrons to be attracted to each other. Attractive forces between the protons and neutrons keeps the nucleus together. This is one of the four basic forces in nature.But when the protons and neutrons start to move farther apart the strong force gets weaker, and weaker the farther they move and will be repelled.
It causes the protons in the nucleus repel each other.
gravitational
Protons are found in the nucleus of an atom, which is located at the center. Neutrons are also found in the nucleus along with protons.
Between protons and neutrons exist the residual strong force (nuclear force).
The residual strong force. The strong force (or color force) is what holds quarks together to form protons and neutrons. The residual strong force then holds the protons and neutrons together in the nucleus.
The strong atomic force holds protons (and neutrons) together in the nucleus.
The strong nuclear force acts only on neutrons and protons in the nucleus of an atom. The opposite would be a weak nuclear force.
It is called strong nuclear force.
The strong nuclear force.
Protons and neutrons together in the nucleus
gravitational
In a small nucleus, such as oxygen, xenon, or any of the lighter elements, the strong force generated by the protons and neutrons is stronger than the repulsion between protons, and the nucleus holds together. In a larger nucleus, such as uranium, curium, or the heavier elements, the strong force isn't strong enough to hold it together, and the electromagnetic force pulls it to pieces.