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Oxygen vs Hydrogen Electronegativity
Between heaven and earth, everything has its own nature, and the nature of elements is also unique. Today, when discussing the electronegativity of oxygen and hydrogen, it is related to the combination of all things and the formation of physical properties.
Oxygen, the number of atomic nuclear charges is eight, and the number of electron layers is two. The outer electronic structure is six, and if you want to reach the stable state of the octet, you have a strong power to attract electrons. Among the elements, the electronegativity is quite high.
Hydrogen, the nucleus of the atom has only one proton, and the outer layer has only one electron. Although it wants to obtain an electron into a stable state, compared with oxygen, the number of nuclear charges is small, and the number of electron layers is only one, and the power to attract electrons is inferior to that of oxygen.
Therefore, according to common sense, the electronegativity of oxygen is greater than that of hydrogen. Oxygen in compounds often shows negative valence, because its ability to capture electrons is strong; hydrogen is more positive, because electrons are easily captured by other elements.
Looking at various chemical reactions, oxygen and hydrogenation combine to produce water. In this process, oxygen absorbs electrons and shows negative divalence, and hydrogen loses electrons and shows positive monovalence. This can also be a proof that the electronegativity of oxygen is greater than that of hydrogen.
The electronegativity of elements, although invisible and invisible, plays a crucial role in the change of all things and the composition of matter. It is necessary to study its rationale.
Oxygen, the number of atomic nuclear charges is eight, and the number of electron layers is two. The outer electronic structure is six, and if you want to reach the stable state of the octet, you have a strong power to attract electrons. Among the elements, the electronegativity is quite high.
Hydrogen, the nucleus of the atom has only one proton, and the outer layer has only one electron. Although it wants to obtain an electron into a stable state, compared with oxygen, the number of nuclear charges is small, and the number of electron layers is only one, and the power to attract electrons is inferior to that of oxygen.
Therefore, according to common sense, the electronegativity of oxygen is greater than that of hydrogen. Oxygen in compounds often shows negative valence, because its ability to capture electrons is strong; hydrogen is more positive, because electrons are easily captured by other elements.
Looking at various chemical reactions, oxygen and hydrogenation combine to produce water. In this process, oxygen absorbs electrons and shows negative divalence, and hydrogen loses electrons and shows positive monovalence. This can also be a proof that the electronegativity of oxygen is greater than that of hydrogen.
The electronegativity of elements, although invisible and invisible, plays a crucial role in the change of all things and the composition of matter. It is necessary to study its rationale.
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