Solution Found!
Answer: CALC The potential energy of two atoms in a
Chapter 7, Problem 39E(choose chapter or problem)
Problem 39E
CALC The potential energy of two atoms in a diatomic molecule is approximated by U(r) = (a/r12) – (b/r6), where r is the spacing between atoms and a and b are positive constants. (a) Find the force F(r) on one atom as a function of r. Draw two graphs: one of U(r) versus r and one of F(r) versus r. (b) Find the equilibrium distance between the two atoms. Is this equilibrium stable? (c) Suppose the distance between the two atoms is equal to the equilibrium distance found in part (b). What minimum energy must be added to the molecule to dissociate it—that is, to separate the two atoms to an infinite distance apart? This is called the dissociation energy of the molecule. (d) For the molecule CO, the equilibrium distance between the carbon and oxygen atoms is 1.13 X 10-10 m and the dissociation energy is 1.54 X 10-18 J per molecule. Find the values of the constants a and b.
Questions & Answers
QUESTION:
Problem 39E
CALC The potential energy of two atoms in a diatomic molecule is approximated by U(r) = (a/r12) – (b/r6), where r is the spacing between atoms and a and b are positive constants. (a) Find the force F(r) on one atom as a function of r. Draw two graphs: one of U(r) versus r and one of F(r) versus r. (b) Find the equilibrium distance between the two atoms. Is this equilibrium stable? (c) Suppose the distance between the two atoms is equal to the equilibrium distance found in part (b). What minimum energy must be added to the molecule to dissociate it—that is, to separate the two atoms to an infinite distance apart? This is called the dissociation energy of the molecule. (d) For the molecule CO, the equilibrium distance between the carbon and oxygen atoms is 1.13 X 10-10 m and the dissociation energy is 1.54 X 10-18 J per molecule. Find the values of the constants a and b.
ANSWER:
Solution 39E
Problem (a)
Step 1:
Potential energy of two atoms is given by
Ur = - -----(1)
r - interatomic space
a and b - positive constants