Ions as Na+, Mg2+, Al3+ and N3- are isoelectronic; neon is an inert gas.
Doubly negatively charged oxide ions, singly negatively charged fluoride ions, and neon atoms are isoelectronic with triply negatively charged nitride ions.
They are isoelectronic, and have similar bonding with a tetrahedral shape (valence bond theory sp3 hybridized) Isolobal refer to frontier orbitals on molecular fragemts such as free radicals not to stable species such a s ammonium cation and tetrahydroborate anion
In Al2O3 the bond is probably best described as polar covalent. This is a compound where the bonding is borderline ionic/covalent- it is not a typical ionic compound. In dissolved aluminium salts which are generally acidic indicating a strong Al- O bond. Species such a Al(OH)4- have been detected in basic solutions.
Two aluminum atoms and three sulfur atoms would have the formula Al2S3. When writing a formula for an ionic compound, the positive ion (in this case Al3+) is written first. Very often, an ionic compound is composed of a metal and a nonmetal, as in Al2S3, in which case the metal ion will be written first because it will always be positively charged.
Such organic species are alcohols and inorganic species include bicarbonate, bisulphate and biphosphate ions.
The isoelectronic species are those elements, which have the same no. of electrons inside their atoms. Like an example is neon, and sodium ion, both of which consists of 10 electrons each. The elements, which are isoelectronic with each other, differ in their chemical and physical properties, like as the positive charge on a species increases, it's reactivity increases due to the increased electropositive nature of that species.
Isoelectronic means equal electric. They are made of equally combined ions. So I'm figuring No, because Isotopes are an equal number of protons and neutrons.
Doubly negatively charged oxide ions, singly negatively charged fluoride ions, and neon atoms are isoelectronic with triply negatively charged nitride ions.
Species (atoms or ions) that have the same number of electrons, and the same electron configuration, are called isoelectronic.
Aluminum 3
Achieving the octet is impossible in forming molecules from group 2 elements.However there are molecular species of magnesium as transient species in magnesium vapour, diatomic and also clusters of three or more but these are not stable, as they do not have the octet of electrons.
an incorrect non-existent species. However, Magnesium Sulfate would be MgSO4
They are isoelectronic, and have similar bonding with a tetrahedral shape (valence bond theory sp3 hybridized) Isolobal refer to frontier orbitals on molecular fragemts such as free radicals not to stable species such a s ammonium cation and tetrahydroborate anion
Ions of an element are formed when electrons are added or removed. When protons are added or removed, the element itself is different. Aluminium can form 3+ ion by losing three electrons. Besides, if it was possible to add three protons to aluminium, the species formed will be sulphur atom and not aluminium atom.
It depends whether you mean F2 fluorine gas or the atom fluorine, and also whether you take the strict definition of "all electrons" or just the valence outer shell electrons. F2 has in total of 18 electrons- - restricting the answer to diatomic species the best answer is O22- the peroxide ion, as this is known- OF- would be another possibility but isn't known. Taking just the valnec electrons the S22- ion is another possibility this "ion" is known in compounds.
Being solid and dense are "physical" characterists. So, they depend on the INTERmolecular forces betweens the species of the substance(this one is a crystalline so it is composed of ions). Therefore, substance exists as dense solid because the intermolecular forces are strong.
MgSO4 is a stable salt, I think. Besides, this reaction would produce highly reactive H2SO4, so you would have four species in solution; perhaps some kind of equilibrium reaction. ( needs chemists edit )