Since a nucleus is made of proton, positively charged particle, you would assume that it would tend to push itself apart. However the presence of neutron allows the charge to be distributed and therefore make it more stable.
No, the electrical forces within an atomic nucleus are not responsible for holding the nucleus together. Instead, the strong nuclear force is the fundamental force that holds the protons and neutrons together within the nucleus. This force is stronger than the electrical repulsion between the positively charged protons in the nucleus.
The force between nucleons is called nuclear force.
Intra-atomic forces refer to the forces that hold together the components within an atom, such as the nucleus and electrons. These forces include electromagnetic forces between protons and electrons, as well as forces that hold subatomic particles together, like the strong nuclear force and weak nuclear force.
An element is held together by the attraction between the positively charged nucleus and negatively charged electrons in its atomic structure. This attraction is governed by electromagnetic forces, which keep the electrons orbiting around the nucleus in specific energy levels or shells.
The strong nuclear force and the weak nuclear force are the forces responsible for holding subatomic particles together within the nucleus of an atom. These forces are essential for binding protons and neutrons together and are crucial in maintaining the stability of atomic nuclei.
Strong nuclear forces act through gluons in the nucleus
Protons in the nucleus of an atom are held together by the strong nuclear force, which is stronger than the electromagnetic force that causes repulsion between positively charged particles. This strong force overcomes the electromagnetic repulsion, keeping the protons bound in the nucleus. If the balance between these forces is disrupted, such as in nuclear fission reactions, the nucleus can split apart.
The electrical forces inside a nucleus contribute to the nuclear force, also known as the strong nuclear force. This force is responsible for binding protons and neutrons together in the nucleus. It overcomes the electrical repulsion between positively charged protons to hold the nucleus together.
Intra-atomic forces refer to the forces that hold together the components within an atom, such as the nucleus and electrons. These forces include electromagnetic forces between protons and electrons, as well as forces that hold subatomic particles together, like the strong nuclear force and weak nuclear force.
An element is held together by the attraction between the positively charged nucleus and negatively charged electrons in its atomic structure. This attraction is governed by electromagnetic forces, which keep the electrons orbiting around the nucleus in specific energy levels or shells.
The force that holds protons and neutrons together in the atomic nucleus is an example of the strong nuclear force. This force is the strongest of the four fundamental forces in nature and is responsible for binding the nucleus together despite the repulsive forces between positively charged protons.
The repelling forces you are referring to are from electrical charges and are much weaker than the nuclear forces that hold the particles (protons and neutrons) together in the nucleus.
Nuclear particles are held together by the strong nuclear force, which is one of the four fundamental forces of nature. This force is responsible for binding protons and neutrons together in the atomic nucleus.
Perhaps you refer to THE strong force - that's the force that keeps the protons and neutrons in an atomic nucleus together. It also keeps the quarks inside each proton and neutron together.
The strong nuclear force and the weak nuclear force are the forces responsible for holding subatomic particles together within the nucleus of an atom. These forces are essential for binding protons and neutrons together and are crucial in maintaining the stability of atomic nuclei.
False. Democritus was an ancient Greek philosopher who proposed the idea of atoms as the basic building blocks of matter. The forces that hold together the nucleus were discovered much later by scientists studying atomic structure.
The largest force acting with in an atom is the van der wells force. It is several orders of magnitude stronger the the weak nuclear forces. It really depends on what sub atomic particles you are talking about.
The strong nuclear force keeps the atomic nucleus together. Since protons all have the same charge they would repel one another and the nucleus would fly apart without the strong force. The weak force also acts on the atomic nucleus and is involved in radioactive decay and is responsible for radioactivity.
yes