The figure shows a somewhat inferior model for the inter-atomic force between a pair of atoms. In the context of this model, what is: 05 -1 13 10 12 14 r/ 1010 m Figure 3.1: A defective potential. 1. The equilibrium separation between the pair of atoms? 2. The force required to increase the separation of the pair by 1% from the equilibrium separation? 3. The minimum constantly applied force required to completely separate the pair? N„0L/ (1)
The figure shows a somewhat inferior model for the inter-atomic force between a pair of atoms. In the context of this model, what is: 05 -1 13 10 12 14 r/ 1010 m Figure 3.1: A defective potential. 1. The equilibrium separation between the pair of atoms? 2. The force required to increase the separation of the pair by 1% from the equilibrium separation? 3. The minimum constantly applied force required to completely separate the pair? N„0L/ (1)
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![The figure shows a somewhat inferior model for the inter-atomic force between a pair of atoms.
In the context of this model, what is:
0.5
0.5
-1
-1.5
10
12
14
r/ 1010 m
Figure 3.1: A defective potential.
1. The equilibrium separation between the pair of atoms?
2. The force required to increase the separation of the pair by 1% from the equilibrium
separation?
3. The minimum constantly applied force required to completely separate the pair?
4. The energy required to completely separate the pair, starting from equilibrium?
N01 / (1)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff38c564c-0ec3-4396-947c-6e6b11243ead%2F7f7e3e1d-89ef-4957-85cb-acfde6bb5d48%2F88mh3de_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The figure shows a somewhat inferior model for the inter-atomic force between a pair of atoms.
In the context of this model, what is:
0.5
0.5
-1
-1.5
10
12
14
r/ 1010 m
Figure 3.1: A defective potential.
1. The equilibrium separation between the pair of atoms?
2. The force required to increase the separation of the pair by 1% from the equilibrium
separation?
3. The minimum constantly applied force required to completely separate the pair?
4. The energy required to completely separate the pair, starting from equilibrium?
N01 / (1)
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