The electrostatic repulsion.
The electromagnetic force is the force that typically prevents two nuclei from getting too close together. This force arises from the interaction of positively charged protons in the nuclei, causing them to repel each other.
A large amount of kinetic energy is required to force nuclei together because nuclei are positively charged and repel each other due to electromagnetic forces. Overcoming this repulsion requires a significant amount of energy to bring the nuclei close enough for the strong nuclear force to take effect and bind them together in a nuclear reaction.
The strong nuclear force is the fundamental force that binds atomic nuclei together. It is stronger than the electromagnetic force, which would otherwise cause positively charged protons to repel each other within the nucleus.
The force that holds nuclei together is the strong nuclear force. This force is responsible for binding protons and neutrons within the atomic nucleus. It is one of the four fundamental forces in nature, along with gravity, electromagnetism, and the weak nuclear force.
The strong nuclear force field holds atomic nuclei together by overcoming the electromagnetic repulsion between positively charged protons, binding them together through powerful interactions.
The electromagnetic force is the force that typically prevents two nuclei from getting too close together. This force arises from the interaction of positively charged protons in the nuclei, causing them to repel each other.
A large amount of kinetic energy is required to force nuclei together because nuclei are positively charged and repel each other due to electromagnetic forces. Overcoming this repulsion requires a significant amount of energy to bring the nuclei close enough for the strong nuclear force to take effect and bind them together in a nuclear reaction.
Because the nuclei are all positively charged they repel each other. They are made to stick to each other when brought close enough for the strong force to take hold.
The strong force holds atomic nuclei together.
Because the nuclei are all positively charged they repel each other. They are made to stick to each other when brought close enough for the strong force to take hold.
No it is the force holding the atomic nuclei together.
One type of repulsive force operating on atoms brought close together is the electron-electron repulsion. This occurs when the negatively charged electrons in each atom come into close proximity, causing a repulsive force due to their like charges.
The force between nucleons is called nuclear force.
The strong nuclear force is the fundamental force that binds atomic nuclei together. It is stronger than the electromagnetic force, which would otherwise cause positively charged protons to repel each other within the nucleus.
The force that holds nuclei together is the strong nuclear force. This force is responsible for binding protons and neutrons within the atomic nucleus. It is one of the four fundamental forces in nature, along with gravity, electromagnetism, and the weak nuclear force.
protons
The strong nuclear force field holds atomic nuclei together by overcoming the electromagnetic repulsion between positively charged protons, binding them together through powerful interactions.