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the double bond
Chlorocthase C2H2Cl Ethanec C2H6 Chloroethane, C2H5Cl Ethane, C2H6
The shorter the length the stronger the bond.
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.
Bond length of iodine: 266,6 pm.
the double bond
Chlorocthase C2H2Cl Ethanec C2H6 Chloroethane, C2H5Cl Ethane, C2H6
The shorter the length the stronger the bond.
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.
Oxygen has the greater bond energy.
The bond length is similar to the Ethane (Ethz155)
Bond length of iodine: 266,6 pm.
Greater the bond strength, greater is the bond dissociation energy. (So they are proportional to each other).
there is no specific length for the peptide bond, but there are million amino acids that build up a peptide bond
The single bond length between oxygen and phosphorus is 176 picometers but I am unsure of the double bond length.
greater the bond order, greater is the stability of the molecule.
The bond length is 1.27 x 10-10 m