Molecules or covalent compounds are formed by the sharing of valence electrons.
False. Sharing valence electrons to make a bond creates a covalent bond, not an ionic bond.
These electrons are called "outershell electrons" or "valence electrons."
The electrons are shared between the two chemicals. Each chemical (element) wants a stable octet, so you must make sure both chemicals in the compound have eight valence electrons. Each chemical is connected by a line (bond) which represents two electrons, and you must draw the remaining electrons needed as either lone pairs or more bonds. You determine how many electrons you need in the entire diagram by finding the number of valence electrons for the first chemical and adding it to the number of valence electrons for the second chemical, and so on. If there is a sub number next to the chemical, you need to multiply the number of electrons for that one element times the sub number before adding it to the number of valence electrons for the other chemicals. You must make sure that your diagram has that number of dots/lines in it exactly, no more or no less.
Mercury easily shares its valence electrons
Valence electrons are electrons on the outermost "level". And depending on its electron configuration, it plays a role in which if the atom requires to gain or lose electrons in order to become "stable", it can accept or give electrons to another atom in a chemical reaction.
Chemical bonds are formed by the sharing or donating of electrons. The electrons that atoms use to make chemical bonds are the outermost electrons, also known as valence electrons.
False. Sharing valence electrons to make a bond creates a covalent bond, not an ionic bond.
These electrons are called "outershell electrons" or "valence electrons."
No, different atoms make chemical bonds in different ways. They may form chemical bonds by either loosing or accepting electrons, sharing or by mutual sharing electrons.
A valence electron, also known as valence orbital, is basically composed of electron and atoms that can make a chemical bond. Valence electrons identify other elementÕs chemical properties to determine if the element may bond with other elements.
The electrons are shared between the two chemicals. Each chemical (element) wants a stable octet, so you must make sure both chemicals in the compound have eight valence electrons. Each chemical is connected by a line (bond) which represents two electrons, and you must draw the remaining electrons needed as either lone pairs or more bonds. You determine how many electrons you need in the entire diagram by finding the number of valence electrons for the first chemical and adding it to the number of valence electrons for the second chemical, and so on. If there is a sub number next to the chemical, you need to multiply the number of electrons for that one element times the sub number before adding it to the number of valence electrons for the other chemicals. You must make sure that your diagram has that number of dots/lines in it exactly, no more or no less.
Mercury easily shares its valence electrons
the number of valence electrons determine the reactivity of the atoms
Valence electrons are electrons on the outermost "level". And depending on its electron configuration, it plays a role in which if the atom requires to gain or lose electrons in order to become "stable", it can accept or give electrons to another atom in a chemical reaction.
They all have the same number of valence electrons
It is not clear from your question what you mean by sharing substances, or exactly what it is that these substances are sharing. However, I'll make a guess. Chemical reactions often involve atoms sharing electrons. And what happens to them during chemical reactions is that the distribution of electrons shifts. Electrons don't have to actually leave one atom and go to another in order to form a chemical reaction. Sometimes it is more a matter of spending some time with one atom and some time with another, or with several others. Electrons are very versatile.
If you're asking how will an atom with 5 valence electrons will achieve a full set of valence electrons, then the answer would be that they bond with other atoms to gain a full set of the valence electrons by sharing or gaining 3 electrons.