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Atoms on the Right Hand Side of the periodic table - Carbon, Phosphorous, Chlorine itself etc
alkanes.
A covalent bond is most likely to be polar when there is a large difference in the electronegativity of the two atoms that form the bond.
The atoms of any element, excepting the so-called "noble gases" (helium, neon, argon, xenon, etc.) may form covalent bonds with other atoms. The periodic table organizes known elements by the number of electrons available for covalent bonding in its atoms' outer electron shell.
No, it is covalent as it contains two atoms of the same element, meaning no difference in electronegativity.
The closer they are to the center of the periodic table, the more likely they are to form covalent bonds. The closer to the edges, the less likely.
Atoms on the Right Hand Side of the periodic table - Carbon, Phosphorous, Chlorine itself etc
Among the elements listed, silicon is most likely to form covalent bonds. (Silicon is in the same periodic table column as carbon, which is the most likely of all atoms to form covalent bonds.)
alkanes.
A covalent bond is most likely to be polar when there is a large difference in the electronegativity of the two atoms that form the bond.
An alkane.
Yes, it contains three hydrogen atoms covalently bonded to one nitrogen atom (covalent bonding).
it contains C.H atoms generally. some times it contains s too.
The element that contains 14 protons in its atoms has the atomic number 14. On the Periodic Table, this element is silicon, Si.
An oxygen atom is located in the 16th period of the periodic table so its outermost level of electrons(level 2) contains 6 electrons which is two less then eight. So, in order for oxygen to fill its outermost level it needs to gain two electrons, or in this case, form a covalent bond with another oxygen atoms this is why an oxygen atom has a subscript of 2.
The atoms of any element, excepting the so-called "noble gases" (helium, neon, argon, xenon, etc.) may form covalent bonds with other atoms. The periodic table organizes known elements by the number of electrons available for covalent bonding in its atoms' outer electron shell.
No, it is covalent as it contains two atoms of the same element, meaning no difference in electronegativity.