Part E The actual bond energy in Part D is 4.43 . This deviates from your calcul

Question

Part E The actual bond energy in Part D is 4.43 . This deviates from your calculated value because the point-particle approximation is not completely valid in this case. Why not? because the potential energy is greater than the kinetic energy
because the electrons are moving too fast
because angular momentum is ignored by the particle approximation
because the size of the objects is similar to the separation
because the atoms are moving too fast The actual bond energy in Part D is 4.43 . This deviates from your calculated value because the point-particle approximation is not completely valid in this case. Why not? because the potential energy is greater than the kinetic energy
because the electrons are moving too fast
because angular momentum is ignored by the particle approximation
because the size of the objects is similar to the separation
because the atoms are moving too fast The actual bond energy in Part D is 4.43 . This deviates from your calculated value because the point-particle approximation is not completely valid in this case. Why not? because the potential energy is greater than the kinetic energy
because the electrons are moving too fast
because angular momentum is ignored by the particle approximation
because the size of the objects is similar to the separation
because the atoms are moving too fast The actual bond energy in Part D is 4.43 . This deviates from your calculated value because the point-particle approximation is not completely valid in this case. Why not? because the potential energy is greater than the kinetic energy
because the electrons are moving too fast
because angular momentum is ignored by the particle approximation
because the size of the objects is similar to the separation
because the atoms are moving too fast because the potential energy is greater than the kinetic energy
because the electrons are moving too fast
because angular momentum is ignored by the particle approximation
because the size of the objects is similar to the separation
because the atoms are moving too fast

Explanation / Answer

The corect answer is "because the size of the objects is similar to the sepration"

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