The graph above shows the potential energy of an object that moves without the influence of other forces. [Note: the vertical axis is in units of fJ or "femto-joules" and the horizontal axis is in units of nm or nanometers. These are reasonable units for atomic physics, but you do not need to know the size of a femto-joule to solve this problem.] The object is released from rest at the point x = 2.0 nm. The object then starts to move to the right and/or to the left. What is the maximum value of the position of the object on the x axis after it is released?
The graph above shows the potential energy of an object that moves without the influence of other forces. [Note: the vertical axis is in units of fJ or "femto-joules" and the horizontal axis is in units of nm or nanometers. These are reasonable units for atomic physics, but you do not need to know the size of a femto-joule to solve this problem.] The object is released from rest at the point x = 2.0 nm. The object then starts to move to the right and/or to the left. What is the maximum value of the position of the object on the x axis after it is released?
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The graph above shows the potential energy of an object that moves without the influence of other forces. [Note: the vertical axis is in units of fJ or "femto-joules" and the horizontal axis is in units of nm or nanometers. These are reasonable units for atomic physics , but you do not need to know the size of a femto-joule to solve this problem.]
The object is released from rest at the point x = 2.0 nm. The object then starts to move to the right and/or to the left. What is the maximum value of the position of the object on the x axis after it is released? [Answer in units of nanometers.]
![Potential energy vs. Position
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Position (nm)
Potential energy (fJ)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5c647828-f044-4f1b-b879-19c790819471%2Fcbc63d7a-2deb-41ca-8a69-0cb5c5867eb5%2Fzq1m71s_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Potential energy vs. Position
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Position (nm)
Potential energy (fJ)
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