Electrons are usually found near the nucleus due to the attractive force of the positively charged protons in the nucleus. This force keeps the electrons in orbit around the nucleus rather than floating away. The balance between the attractive force of the protons and the repulsive force of the electrons determines the electron's energy level and distance from the nucleus.
Electrons are held in place by the electrostatic attraction between the positively charged nucleus and the negatively charged electrons. This force of attraction, known as the electromagnetic force, is stronger than the centrifugal force acting on the electrons, keeping them in orbit around the nucleus.
Electrons surround the nucleus of an atom due to the attraction between the positive charge of the protons in the nucleus and the negative charge of the electrons. This electrostatic force of attraction keeps the electrons in orbit around the nucleus, maintaining the stability of the atom.
A nucleus of Protos and Neutrons held together by the strong force with orbiting electrons around the nucleus.
because the electric field of the nucleolus is radially symmetrical. And if you really want to get picky, the electron doesn't move in a circle but occupies a spherical probability continuum with indeterminable position and velocity.
The force that holds electrons around a nucleus is the electrostatic force of attraction between the positively charged nucleus and the negatively charged electrons. This force is known as the electromagnetic force and is responsible for keeping the electrons in orbit around the nucleus.
Electrons move around the nucleus due to the attractive force between the positively charged protons in the nucleus and the negatively charged electrons. This force, called electrostatic attraction, keeps the electrons in orbit around the nucleus.
centrifugal force
Electrons do not crash into the nucleus because they are constantly in motion and are held in orbit around the nucleus by the electromagnetic force. This force keeps the electrons at a certain distance from the nucleus, preventing them from colliding with it.
weak nuclear force
Electrons are usually found near the nucleus due to the attractive force of the positively charged protons in the nucleus. This force keeps the electrons in orbit around the nucleus rather than floating away. The balance between the attractive force of the protons and the repulsive force of the electrons determines the electron's energy level and distance from the nucleus.
Electrostatic force betweeen positive nucleus and negatively charged electrons.
The electrostatic force between the positively charged nucleus and negatively charged electrons is responsible for keeping electrons in orbit around the nucleus. This force acts as a centripetal force, keeping the electrons in their orbit.
Protons and electrons have opposite charges, so they do attract each other. However, the force of attraction is balanced by the electromagnetic force that keeps electrons in their orbit around the nucleus of the atom. This balanced force allows atoms to remain stable.
Electrons inhabit a probability cloud around the nucleus, which is related to their possible velocities. The closer the cloud is to the nucleus, the higher the kinetic energy, which allows it to overcome the electromagnetic attraction of the protons.
nuclear energy
Electrons are kept in the orbit around the nucleus by the electromagnetic force, because the nucleus in the center of the atom is positively charged and attracts the negatively charged electrons. From: http://www.ric.edu/faculty/ptiskus/Atomic_Force/