Draw a potential energy curve for the bond formation in F2
Answers
As the atoms come close to each other, the electrons condense between the cores, and force of attraction occurs Consequently, the potential vitality, U, diminishes. At short separations, the electrons would be 'pressed out'. Subsequently, the two emphatically charged cores will encounter an unpleasant power due to the next. This outcomes in the bend ascending as r reduces further.
At ro, the vitality or energy between the atom is the most minimal. This is purpose of most prominent strength for the particle. Henceforth, ro, known as the balance dispersing of particles, gives the normal partition of the iotas in the atom. Electrostatic power at equilibrium partition is 0.
The profundity of the well gives the separation (or authoritative) energy of the particle. This is how much vitality that must be put into the framework to isolate the particles into infinity, where the potential energy will be zero.
