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There is electron charge (and mass) everywhere inside the atom. It is not empty space.
There is electronic charge density in the entire volume of an atom. The electrons are said to orbit the nucleus, but that is a short hand description of reality. Reality is described by quantum mechanics and the representation of the location of the electrons is more like a diffuse cloud throughout the atom.
Empty space. Nothing.
Nothing. Empty space.
Nothing between the electrons and the nucleus is nothing
99.9% of that space has no matter in it
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How many electrons surround the nucleus of an atom of potassium?
There are 19 electrons in the potassium nucleus.
What has greater pull by nucleus electron in outer shell of neon or sodium?
The nucleus of sodium has a greater pull on the electron in the outer shell compared to the nucleus of neon. This is because sodium has one less electron in its outer shell than neon, resulting in a stronger attraction between the nucleus and the remaining electron in sodium.
Why does sulfur have a smaller radius than silicon?
Silicon has 14 protons and 14 electrons. the configuration = 1s2 2s2 2p6 3s2 3p2 in the outer orbital, there are 2 electrons, these are shielded from the nucleus by 12 other electrons Sulfer has 16 protons and 16 electrons. the configuration is 1s2 2s2 2p6 3s2 3p4 in the outer orbital, there are 4 electrons, these are shielded from th enucleus by 12 other electrons.
What is an atom compromise of?
An Atom is composed of Electrons,Protons,and Neutrons.
Why is fluorine smaller than oxygen?
Even though Fluorine comes after Oxygen, it is smaller due to the fact that it has more protons. Therefore, the electrons in Fluorine have a tighter orbit than the electrons in Oxygen. Electrons dictate atomic size.
What is found between the electrons and the nucleus in an atom?
The space between the electrons and the nucleus in an atom is filled with empty space and the nucleus contains protons and neutrons.
What is the region between the nucleus and the electrons in an atom called?
The region between the nucleus and the electrons in an atom is called the electron cloud.
What is the strength of attraction between a nucleus and the outermost electrons?
The strength of attraction between a nucleus and the outermost electrons is determined by the electric charge of the nucleus (protons) and the distance between the nucleus and the electrons. This attraction is the basis for the force that holds atoms together and is essential for the stability of matter.
What is between the subatomic particles in an atom?
Protons and neutrons are situated in the nucleus; electrons surround this nucleus. Between the nucleus and clouds of electrons surely is a zone of vacuum; the structure of the atomic nucleus is not exactly known.
Why electrostatic forces exist between nucleus and outermost electrons?
Electrostatic forces between the nucleus and outermost electrons exist due to the attraction between opposite charges. The nucleus carries a positive charge, while electrons carry a negative charge. This attraction keeps the electrons in orbit around the nucleus, creating stability within the atom.
Why are valence electrons easier to remove from an atom than core electrons?
Valence electrons are further away from the nucleus and experience less attraction to the positively charged protons in the nucleus compared to core electrons. This makes valence electrons easier to remove from an atom. Core electrons are located closer to the nucleus and are more strongly attracted to the nucleus, requiring more energy to remove them from the atom.
What is located in between the electrons and nucleus of an atom?
The nucleus of an atom contains protons and neutrons, while the electrons orbit around the nucleus in energy levels.
How are electrons held within a atom?
electrostatic force between the nucleus and the electrons.
What keeps electrons moving 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.
What force holds electrons around a nucleus?
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.
What is mostly between electrons?
In an atom, the space between electrons and the nucleus is mostly filled with empty space. The nucleus contains positively charged protons and neutral neutrons, and the electrons surround the nucleus in different energy levels or electron shells.
How are electrons held in orbit in their atoms?
Between electrons and the atomic nucleus a repulsion exist.
