There is a "strong nuclear force" that keeps it together. In larger atoms like uranium, this force is weaker and may break, resulting in fission.
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Yes, neutrons help bind protons together in the nucleus through the strong nuclear force. This force overcomes the electrostatic repulsion between positively charged protons, preventing them from moving apart due to their mutual repulsion.
The nucleus
If the binding energy of a nucleus was zero, the nucleus would not be stable and would disintegrate. The nucleus relies on the binding energy to hold its protons and neutrons together. Without this binding energy, the nucleus would break apart into individual protons and neutrons.
The type of nuclear force that binds the nucleus of an atom together is the strong nuclear force. It is one of the four fundamental forces of nature and is responsible for holding protons and neutrons together in the nucleus. This force is stronger than the electromagnetic force, which tends to push positively charged protons apart.
the nucleusSimply: the nucleus is NOT made up of positive and negative electrons. (thought you have to understand, if it were, the opposing charges of the particles would hold it together, NOT make it fall apart)the nucleus is made up of positive particles (protons) and neutral particles (neutrons). electrons are always NEGATIVELY charged and are not in the nucleus.while it is true that atoms are made of positive and negative charges wich attract, the protons in the nucleus should repel based on this theory. the reason why the nucleus stays together is because there is a nuclear force that supercedes the magnetic and gravitational forces. neutrons that have a neutral charge also help the nucleus stay together because they buffer between protons.
Protons stay together in the nucleus due to the strong nuclear force, otherwise known as binding energy. This force is the fundamental glue, so to speak, in everything. It overshadows the electromagnetic force by several orders of magnitude, so that the protons do not fly apart due to like charges repelling each other.
Yes, neutrons help bind protons together in the nucleus through the strong nuclear force. This force overcomes the electrostatic repulsion between positively charged protons, preventing them from moving apart due to their mutual repulsion.
The nucleus
If the binding energy of a nucleus was zero, the nucleus would not be stable and would disintegrate. The nucleus relies on the binding energy to hold its protons and neutrons together. Without this binding energy, the nucleus would break apart into individual protons and neutrons.
The strong nuclear force overcomes the repulsive force of protons, holding them together in the nucleus. This force is much stronger than the electromagnetic force that causes the repulsion between the positively charged protons.
The nuclear force is what binds the nucleons, which are protons and neutrons, together in the nucleus of an atom. The binding energy is the amount of energy needed to break the atom apart. The one is a force, and the other is a measurement.
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 type of nuclear force that binds the nucleus of an atom together is the strong nuclear force. It is one of the four fundamental forces of nature and is responsible for holding protons and neutrons together in the nucleus. This force is stronger than the electromagnetic force, which tends to push positively charged protons apart.
the nucleusSimply: the nucleus is NOT made up of positive and negative electrons. (thought you have to understand, if it were, the opposing charges of the particles would hold it together, NOT make it fall apart)the nucleus is made up of positive particles (protons) and neutral particles (neutrons). electrons are always NEGATIVELY charged and are not in the nucleus.while it is true that atoms are made of positive and negative charges wich attract, the protons in the nucleus should repel based on this theory. the reason why the nucleus stays together is because there is a nuclear force that supercedes the magnetic and gravitational forces. neutrons that have a neutral charge also help the nucleus stay together because they buffer between protons.
Binding energy measures the amount of energy needed to break apart a nucleus into its individual protons and neutrons. It represents the energy that holds the nucleus together. Higher binding energy indicates greater stability of the nucleus.
Two main forces act in an atom, the electromagnetic force and the strong force. The electromagnetic force pulls the nucleus apart, while the strong force holds it together. Both neutrons and protons contribute to the strong force, but only protons contribute to the electromagnetic force. If an atom has too many protons and not enough neutrons, the electromagnetic force will overpower the strong force, and the nucleus will rip apart into more stable forms.
No, protons can be found elsewhere when the atom is taken apart by some huge force.