A Lennard-Jones potential with repulsive interaction prep (r) = A.r-12 with A =58.68 eV Å12 and Patt (r) = -B.r- with B =0.16 eV Åº. Derive the force distance curve and calculate the equilibrium distance. Give your results in Å and round if off to two decimal places, i.e. the nearest hundredth.

A Lennard-Jones potential with repulsive interaction prep (r) = A.r-12 with A =58.68 eV Å12 and Patt (r) = -B.r- with B =0.16 eV Åº. Derive the force distance curve and calculate the equilibrium distance. Give your results in Å and round if off to two decimal places, i.e. the nearest hundredth.

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Question

A Lennard-Jones potential with repulsive interaction prep (r) = A.r-12 with A =58.68 eV Å12
and Patt (r) = -B.r- with B =0.16 eV Åº. Derive the force distance curve and calculate the
equilibrium distance. Give your results in Å and round if off to two decimal places, i.e. the nearest
hundredth.

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