One description of the potential energy of a diatomic molecule is given by the Lennard–Jones potential, U = (A)/(r12) - (B)/(r6)where A and B are constants and r is the separation distance between the atoms. For the H2 molecule, take A = 0.124 x 10-120 eV ⋅ m12 and B = 1.488 x 10-60 eV ⋅ m6. Find (a) the separation distance r0 at which the energy of the molecule is a minimum and (b) the energy E required to break up theH2 molecule.

One description of the potential energy of a diatomic molecule is given by the Lennard–Jones potential, U = (A)/(r12) - (B)/(r6)where A and B are constants and r is the separation distance between the atoms. For the H2 molecule, take A = 0.124 x 10-120 eV ⋅ m12 and B = 1.488 x 10-60 eV ⋅ m6. Find (a) the separation distance r0 at which the energy of the molecule is a minimum and (b) the energy E required to break up theH2 molecule.

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Question

One description of the potential energy of a diatomic molecule is given by the Lennard–Jones potential,
U = (A)/(r¹²) - (B)/(r⁶)
where A and B are constants and r is the separation distance between the atoms. For the H₂ molecule, take A = 0.124 x 10^-120 eV ⋅ m¹² and B = 1.488 x 10^-60 eV ⋅ m⁶. Find (a) the separation distance r₀ at which the energy of the molecule is a minimum and (b) the energy E required to break up the
H₂ molecule.