It is necessary to gain/lose electrons.
Phosphorus need 3 electrons to complete its octet.
Octet rule states that each electron wants to complete its octet ( 8 electrons in the outermost shell) or a duplet (in case of hydrogen and helium).
Carbon does not gain or lose 4 electrons to complete its octet because it only has 4 valence electrons to begin with. To complete its octet, carbon forms covalent bonds by sharing electrons with other atoms to achieve stability due to its electronic configuration.
a covalent bond
The elements can be described by dot structure. Metals combine with other elements to make its octet complete.
eight. it is important to obtain octet so that elements become stable.
Phosphorus need 3 electrons to complete its octet.
8
Yes, neutral unbonded atoms can complete a valence octet by gaining or losing electrons to achieve a stable electron configuration with 8 valence electrons. This stability is known as the octet rule, which applies to many elements in the periodic table.
Octet rule states that each electron wants to complete its octet ( 8 electrons in the outermost shell) or a duplet (in case of hydrogen and helium).
Carbon does not gain or lose 4 electrons to complete its octet because it only has 4 valence electrons to begin with. To complete its octet, carbon forms covalent bonds by sharing electrons with other atoms to achieve stability due to its electronic configuration.
a covalent bond
The elements can be described by dot structure. Metals combine with other elements to make its octet complete.
In the atomic representation of MgCl2 according to the octet rule, magnesium (Mg) will have two dots or one dash symbolizing a bond with each of the chlorine (Cl) atoms, to complete its octet. The chlorine atoms will each have seven dots or one dash symbolizing a bond with magnesium, to complete their octet.
No, it doesn't have a complete octet. Phosphorous is in group 5A, meaning it has 5 valence electrons (5 electrons on its outest shell).
A liquid, graphite foil, neoprene, and fiber glass
Noble gases have a complete octet and are stable because they have a full outer electron shell. They do not chemically bond with other atoms because they are already in a stable configuration.