individual atom is unstable because of its high energy, so through bonding it shares its energy with other atom and as a result both get stable. we can also explain this fact by octet rule, if the outermost shell of an atom is not complete that means atom is not stable. so to make that stable it will make a bond with another unstable atom as a result of sharing or transfer of electrons BOTH WILL GET STABILIZE...........
Bond energy is a measure of the strength of a chemical bond, that is the amount of energy required to break a bond. The larger the bond energy, the stronger the bond. For covalent bonds, bond energies and bondlengths depend on many factors: electron afinities, sizes of atoms involved in the bond, differences in their electronegativity, and the overall structure of the molecule. There is a general trend in that the shorter the bondlength, the higher the bond energy and the stronger the bond.
The strength of any bond ionic or covalent is highly variable. Look at a table of Bond Dissociation Energies and compare the energies to see which is stronger.
greater the bond order, greater is the stability of the molecule.
the number of chemical bonds btween an atom or atoms
-1250 kj/mol
The bond length of two atoms is the distance between the centers/ nuclei of the atoms involved in the bond. In order to break any bond, energy of a certain value has to be supplied. this means that the closer the nuclei of the bonding atoms are, a greater supply of energy is needed to separate the atoms. in other words, 'short' bond lengths require high dissociation energies to break the bond.
The strength of any bond ionic or covalent is highly variable. Look at a table of Bond Dissociation Energies and compare the energies to see which is stronger.
greater the bond order, greater is the stability of the molecule.
Stability
Covalent Bond(s)
The stability of an isotope relate to its abundance in nature by the hemoglobin anatomy by turning into a sharknado at the tempature of the following atoms.
Kinetic - how quickly something reacts.Thermodynamic - the energies required.
your maama
ΔH = sum of the energies required to break old bonds (positive signs) plus the sum of the energies released in the formation of new bonds (negative signs).
The energy required to remove more than one electron from atoms.
don't know xd
English bond use a lot of facing brick, but it stability is higher than stretches bond.
To gain electronic stability (i.e. stability with respect to their electron configuration)