Electrostatic forces between the positively charged nucleus and the electron.
In a covalent bond if there is a difference of electronegativity between the atoms then the shared electrons are "attracted" to the most electronegative element.
Electrons are attracted to the center of the atom, called the nucleus, due to the positively charged protons in the nucleus. Opposite charges attract, so the negatively charged electrons are drawn towards the positively charged nucleus. This attraction keeps the electrons orbiting the nucleus in defined energy levels.
Electrical charge. However they can't fall in any further than "ground state" of innermost unfilled orbital because they are fermions and thus must all be in different states.
No electrons are "attached" to the nucleus of either atom. In a covalent bond one electron from each atom is shared with the other atom.
The particle that "circles" the center of an atom is an electron. (In reality, electrons act more like waves vibrating around an atom that particle circling an atom.) (Both neutrons and protons make up the center of an atom, neutrons have no charge and protons a positive one.)
In a metallic bond, the nucleus of one atom is attracted by the delocalized electrons in the electron sea formed by all the atoms in the metallic structure. This attraction allows the atoms to come together and form a stable structure held together by the strong electrostatic forces between the positive nuclei and the negative electrons.
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The center of an atom that contains both protons and neutrons is called the nucleus. It is positively charged due to the presence of protons and contains most of the mass of the atom.
Nucleus is at the center of atom. It is surrounded by electrons.
Electrons are negatively charge and are attracted to the positively charged Protons in the nucleus of the atom
Negatively charged electrons are attracted to positively charged protons in an atom's nucleus through the electromagnetic force. This attraction keeps the electrons in orbit around the nucleus, forming the structure of an atom.
No electrons are "attached" to the nucleus of either atom. In a covalent bond one electron from each atom is shared with the other atom.
electrons are negitively charged, they are attracted to positive charge. Either a proton or positively charged atom.
Alpha particles are essentially helium nuclei, consisting of two protons and two neutrons, so they carry a double positive charge. The positive charge of the alpha particle and the positive charge of the nucleus repel each other, preventing the alpha particle from being attracted to the electrons surrounding the gold nucleus. This repulsion is what allows the alpha particles to pass through the gold foil without being significantly deflected.
In an atom, the electrons spin around the center, also called the nucleus.
At the center of an atom lies the nucleus, which contains positively charged protons and neutral neutrons. The nucleus makes up the majority of the atom's mass and is surrounded by a cloud of negatively charged electrons.
Electrons are attracted to protons in the nucleus of an atom due to their opposite charges. This attraction is what holds the atom together and forms the basis of chemical bonding.
Electrons
the atom may not be stable
The center of an atom is the nucleus. Inside an atom you will find neutrons, electrons and protons. The nucleus is the most important part of an atom.