Mathematically no, but the strength of the strong nuclear force decreases exponentially with distance, whereas gravitational and electromagnetic force each decrease by the square of distance between two applicable objects. Therefore at large enough distances, the strong nuclear force is much much weaker than the other two and can safely be treated as being non-applicable.
The strongest of the four fundamental forces is the strong nuclear force, which is responsible for holding the nucleus of an atom together. It is the strongest force at short distances within the nucleus.
A nucleus is stable if the electrostatic and strong nuclear forces balance out.
Inside the nucleus of an atom, the primary forces at work are the strong nuclear force and the electromagnetic force. The strong nuclear force, which acts between nucleons (protons and neutrons), is the dominant force that holds the nucleus together, overcoming the repulsive electromagnetic force between positively charged protons. This strong force operates at very short distances, binding nucleons tightly within the nucleus. Additionally, the weak nuclear force plays a role in certain types of nuclear reactions, but it is not responsible for holding the nucleus together.
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.
Strong nuclear forces act through gluons in the nucleus
The strongest of the four fundamental forces is the strong nuclear force, which is responsible for holding the nucleus of an atom together. It is the strongest force at short distances within the nucleus.
The strong nuclear force is the force that holds the nucleus together. This force is one of the four fundamental forces of nature and is responsible for binding protons and neutrons in the nucleus. It is a short-range force that is stronger than the electromagnetic force at nuclear distances.
The two competing fundamental forces inside the nucleus of an atom are the strong nuclear force, which holds protons and neutrons together, and the electromagnetic force, which causes positive charges (protons) to repel each other. The strong nuclear force overcomes the electromagnetic force at close distances, keeping the nucleus stable.
The strong nuclear force acts over very short distances within atoms, typically within the nucleus itself, which is on the order of femtometers (10^-15 meters). This force is responsible for binding protons and neutrons together in the nucleus despite the electrostatic repulsion between protons.
They are bound by nuclear force. At tiny distances, nuclear forces are much more significant in magnitude than gravity or electrostatic repulsion. The name of the force between protons in the nucleus is the "Strong Nuclear Force".
The strong nuclear force binds protons and neutrons together in atomic nuclei. It is a short-range force that operates within the nucleus, overcoming the repulsive electromagnetic forces between positively charged protons.
The forces in the nucleus of a stable atom are the strong nuclear force and the electromagnetic force. The strong nuclear force holds the nucleus together by overcoming the electrostatic repulsion between positively charged protons. The electromagnetic force also plays a role in maintaining the stability of the nucleus.
A nucleus is stable if the electrostatic and strong nuclear forces balance out.
Inside the nucleus of an atom, the primary forces at work are the strong nuclear force and the electromagnetic force. The strong nuclear force, which acts between nucleons (protons and neutrons), is the dominant force that holds the nucleus together, overcoming the repulsive electromagnetic force between positively charged protons. This strong force operates at very short distances, binding nucleons tightly within the nucleus. Additionally, the weak nuclear force plays a role in certain types of nuclear reactions, but it is not responsible for holding the nucleus together.
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.
The primary forces that hold an atom's nucleus together are the strong nuclear force, which is attractive and overcomes the electrostatic repulsion between positively charged protons, and the weak nuclear force, which is responsible for certain types of radioactive decay. These forces play a critical role in maintaining the stability of the atom's nucleus.
The strong force is one of the four fundamental forces of nature, responsible for binding protons and neutrons together in the atomic nucleus. It is the strongest force among the four fundamental forces but has a short range, acting only at distances on the scale of atomic nuclei. The strong force is carried by particles called gluons and is characterized by its ability to overcome the electromagnetic repulsion between positively charged protons within the nucleus.