yes
yes the oxygen will react and the nitrogen will infuse into an ionic bond
No. An ionic bond is a bond between a metal and a nonmetal. Since oxygen and nitrogen are both nonmetals, they form a covalent bond.
Oxygen has a higher electronegativity than nitrogen does, so when sharing electrons with hydrogen, the sharing is more uneven in the case of oxygen than it is with nitrogen. Oxygen, in other words, will attract electrons more strongly than nitrogen does and therefore will wind up with a more negative charge (hydrogen, which supplies the extra electrons to the oxygen, has a correspondingly higher positive charge).
because enough energy is provided for the particles to split enabling them to bond chemically with oxygen atoms
a covalent bond. diatomics include hydrogen, oxygen, chlorine, fluorine, iodine, nitrogen.
The bond between nitrogen atoms in an N2 molecule is stronger than the bond between oxygen atoms in an O2 molecule. However, bond energies for the same atom vary with formulas of compounds, so that there is no answer to this question that is correct for every compound of these two elements.
yes the oxygen will react and the nitrogen will infuse into an ionic bond
oxygen and oxygen, nitrogen and nitrogen
No. An ionic bond is a bond between a metal and a nonmetal. Since oxygen and nitrogen are both nonmetals, they form a covalent bond.
Oxygen has a higher electronegativity than nitrogen does, so when sharing electrons with hydrogen, the sharing is more uneven in the case of oxygen than it is with nitrogen. Oxygen, in other words, will attract electrons more strongly than nitrogen does and therefore will wind up with a more negative charge (hydrogen, which supplies the extra electrons to the oxygen, has a correspondingly higher positive charge).
Covalent bond
because enough energy is provided for the particles to split enabling them to bond chemically with oxygen atoms
Yes
Covalent Bond.
a covalent bond. diatomics include hydrogen, oxygen, chlorine, fluorine, iodine, nitrogen.
Oxygen has the greater bond energy.
because there is a π backbonding in metal nitrogen bond while there is no π backbonding in metal oxygen