The strong nuclear force balances out the electrostatic force.
Their masses are not the same.
An atom is stable when its nucleus has a balanced ratio of protons and neutrons, and when its electrons are in filled energy levels. An atom is unstable when it has an imbalance of protons and neutrons in the nucleus, leading to radioactive decay in an attempt to reach a more stable configuration.
The electric forces inside an atom are responsible for holding the negatively charged electrons around the positively charged nucleus. These forces keep the electrons in stable orbits and determine the overall structure and behavior of the atom. The electromagnetic force is one of the fundamental forces of nature that governs these interactions.
The distance of the electron cloud from the nucleus affects the atom's stability. When the electron cloud is closer to the nucleus, the atom is more stable. This is because the positively charged nucleus and negatively charged electrons are closer together, creating a stronger attraction. Conversely, if the electron cloud is further from the nucleus, the atom is less stable as the attraction between the nucleus and electrons is weaker.
In Rutherford's model of the atom, the nucleus is located at the center and contains protons and neutrons. Electrons are orbiting around the nucleus at a distance, similar to planets orbiting around the sun. The nucleus is positively charged due to the protons, and the electrons are negatively charged, creating a stable atom.
Their masses are not the same.
Electrons are bound to the nucleus in an atom through electromagnetic forces. The negatively charged electrons are attracted to the positively charged protons in the nucleus, creating a stable orbit around the nucleus.
Electric forces inside an atom are responsible for holding the nucleus together and attracting electrons to the nucleus. The positive charge of the protons in the nucleus creates an attraction for the negatively charged electrons, keeping them in orbit around the nucleus in specific energy levels. This balance of attractive forces governs the stability and structure of the atom.
its the greatest part of an atom
A characteristic of a radioactive nucleus is that it undergoes spontaneous decay, emitting radiation in the form of alpha particles, beta particles, or gamma rays in order to achieve a more stable configuration.
An atom is stable when its nucleus has a balanced ratio of protons and neutrons, and when its electrons are in filled energy levels. An atom is unstable when it has an imbalance of protons and neutrons in the nucleus, leading to radioactive decay in an attempt to reach a more stable configuration.
It becomes most stable when its nucleus is filled, not when it is filling it.
Inside an atom's nucleus there is a neutron, which has no charge, therefore no attractive or repulsive forces. The proton carries a positive charge, though, and repels the negative charge of the electron particle which exists somewhere outside of the nucleus.I'm yet of the old technology which thinks that protons and electron attract. Of course, that doesn't explain why the electron don't crash into the proton, but that's another story.
Nucleus is the centre of an atom and consists of positively charged protons and neutral neutrons.
The electric forces inside an atom are responsible for holding the negatively charged electrons around the positively charged nucleus. These forces keep the electrons in stable orbits and determine the overall structure and behavior of the atom. The electromagnetic force is one of the fundamental forces of nature that governs these interactions.
20 for the stable atom
There is a relationship of attraction.