Consider a mass, m, moving under the influence of an effective potential energy b U(r) = + T where a and b are positive constants and r is the radial distance from the origin. In this case, U(r) is a 1D potential energy. (a) Generate a simple plot the potential energy, U(r) vs r. (b) Next, find the equilibrium distance, ro, for the mass in this potential. Then evaluate minimum potential energy U(r.).
Consider a mass, m, moving under the influence of an effective potential energy b U(r) = + T where a and b are positive constants and r is the radial distance from the origin. In this case, U(r) is a 1D potential energy. (a) Generate a simple plot the potential energy, U(r) vs r. (b) Next, find the equilibrium distance, ro, for the mass in this potential. Then evaluate minimum potential energy U(r.).
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![Consider a mass, m, moving under the influence of an effective potential energy
b
7.2
U(r) = r
where a and b are positive constants and r is the radial distance from the origin. In this
case, U(r) is a 1D potential energy.
(a) Generate a simple plot the potential energy, U(r) vs r.
(b) Next, find the equilibrium distance, ro, for the mass in this potential. Then evaluate
minimum potential energy U(r.).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0c015292-e614-4754-9a92-673e636d111d%2F1005b88f-5be5-474f-9014-cb2571c8050b%2Fcywexty_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider a mass, m, moving under the influence of an effective potential energy
b
7.2
U(r) = r
where a and b are positive constants and r is the radial distance from the origin. In this
case, U(r) is a 1D potential energy.
(a) Generate a simple plot the potential energy, U(r) vs r.
(b) Next, find the equilibrium distance, ro, for the mass in this potential. Then evaluate
minimum potential energy U(r.).
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