only some elements are non-reactive, while others are reactive, because the chemicals have reactins when they mix with ccertain other elements and compounds. consult a chemistry teacher to see which are reactive, and which are not.
A nonpolar molecule results when the electronegativities of the atoms within the molecule are the same, leading to an equal sharing of electrons and a symmetrical distribution of charge. For example, in a diatomic molecule like oxygen gas (O2), the equal sharing of electrons between the two oxygen atoms results in a nonpolar molecule.
When an element has all of its outer orbitals filled it becomes non-reactive. All noble-gases form an octet of 8 valance electrons and has each orbital paired, therefore becomes non-reactive.
An atom is non reactive when the outermost shell has the maximun of 8 valence electrons.
They would have equal electron charges
Even distribution.
SOF4 is a polar molecule because the sulfur tetrafluoride molecule has a central sulfur atom bonded to four fluorine atoms and a lone pair of electrons. The asymmetrical arrangement of the fluorine atoms and lone pair makes the molecule polar, with uneven distribution of charge.
Those molecules are polar.
No, O3 (ozone) consists of two polar covalent bonds and one non-polar covalent bond. The overall molecule is polar due to the arrangement of the bonds and the lone pairs of electrons on the central oxygen atom.
Yes, AlF63- is considered polar due to the arrangement of its atoms. The asymmetric distribution of electrons around the aluminum and fluoride atoms results in an uneven charge distribution, making it a polar molecule.
No, a polar molecule is not an ion. A polar molecule occurs when there is an unequal sharing of electrons between atoms within the molecule, creating a partial positive and partial negative charge. An ion, on the other hand, is a charged particle that has gained or lost one or more electrons.
The water molecule become polar.
SOF4 is a polar molecule because the sulfur tetrafluoride molecule has a central sulfur atom bonded to four fluorine atoms and a lone pair of electrons. The asymmetrical arrangement of the fluorine atoms and lone pair makes the molecule polar, with uneven distribution of charge.
All isomers of c2h2cl2 are polar because of the presence of chlorine atoms, which are highly electronegative and result in an unequal sharing of electrons in the molecule.
Those molecules are polar.
No, O3 (ozone) consists of two polar covalent bonds and one non-polar covalent bond. The overall molecule is polar due to the arrangement of the bonds and the lone pairs of electrons on the central oxygen atom.
A non-polar molecule is a molecule that is symmetrical in the sense that the atoms on the outside pull equally on the central atom, thus not causing any differences in electronegativity.
Yes, AlF63- is considered polar due to the arrangement of its atoms. The asymmetric distribution of electrons around the aluminum and fluoride atoms results in an uneven charge distribution, making it a polar molecule.
No, a polar molecule is not an ion. A polar molecule occurs when there is an unequal sharing of electrons between atoms within the molecule, creating a partial positive and partial negative charge. An ion, on the other hand, is a charged particle that has gained or lost one or more electrons.
Yes, molecule AsF3 is polar due to its trigonal pyramidal geometry and the asymmetrical distribution of electrons in the molecule. The lone pair on arsenic further contributes to its polarity.
Fullerene is a nonpolar molecule because it consists of only carbon atoms bonded together in a symmetrical shape. As a result, the distribution of electrons is uniform and there is no separation of charges within the molecule, making it nonpolar.
BrCl5 is a polar molecule. This is because the molecule has an uneven distribution of electrons due to the chlorine atoms exerting a greater pull on the shared electrons compared to the bromine atom, creating a net dipole moment in the molecule.
A water molecule is polar because there is an uneven distribution of electrons between the oxygen and hydrogen atoms.