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Hydrogen Electron Config
The electron arrangement of hydrogen is described in
. Hydrogen is the first of the elements. Its electron arrangement is unique in the ground state of the elements. The atom of hydrogen has only one proton and one electron ear. This single electron, according to the principle of quantum, usually lives in the lowest energy level, that is, the 1s orbital.
1s orbital, a spherical region in which electrons have a high probability of existence. This is because its energy is the lowest, and according to the principle of lowest energy, electrons naturally tend to it. This state of hydrogen is stable and simple.
The image of the electron cloud, centered on 1s, has a degree of density. In its dense place, the probability of electrons appearing is high; in its sparse place, the probability is small. This does not mean that electrons follow a fixed orbit, but are actually distributed in space in a state of probability.
The electron arrangement of hydrogen, although simple, is the foundation of chemistry. The combination and reaction of various elements all begin with this simple structure. During chemical reactions, hydrogen may lose this electron and form hydrogen ions; or it may gain electrons and assume the state of hydrogen negative ions. This is all based on its unique electron arrangement, which deduces thousands of chemical changes.
. Hydrogen is the first of the elements. Its electron arrangement is unique in the ground state of the elements. The atom of hydrogen has only one proton and one electron ear. This single electron, according to the principle of quantum, usually lives in the lowest energy level, that is, the 1s orbital.
1s orbital, a spherical region in which electrons have a high probability of existence. This is because its energy is the lowest, and according to the principle of lowest energy, electrons naturally tend to it. This state of hydrogen is stable and simple.
The image of the electron cloud, centered on 1s, has a degree of density. In its dense place, the probability of electrons appearing is high; in its sparse place, the probability is small. This does not mean that electrons follow a fixed orbit, but are actually distributed in space in a state of probability.
The electron arrangement of hydrogen, although simple, is the foundation of chemistry. The combination and reaction of various elements all begin with this simple structure. During chemical reactions, hydrogen may lose this electron and form hydrogen ions; or it may gain electrons and assume the state of hydrogen negative ions. This is all based on its unique electron arrangement, which deduces thousands of chemical changes.
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