The net interatomic force between the atoms of an element is given by the following expression: 6.561x10- F = Where F is in N and r is interatomic distance in A°, If the interatomic equilibrium distance is known as 3 A° (1 A° = 10 cm): Calculate: a) the attractive constant A. b) the maximum interatomic force in N
The net interatomic force between the atoms of an element is given by the following expression: 6.561x10- F = Where F is in N and r is interatomic distance in A°, If the interatomic equilibrium distance is known as 3 A° (1 A° = 10 cm): Calculate: a) the attractive constant A. b) the maximum interatomic force in N
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![Question 2.
The net interatomic force between the atoms of an element is given by the following expression:
6.561x10-
10
Where F is in N and r is interatomic distance in A°, If the interatomic equilibrium distance is known as
3 A° (1 A° = 10-8 cm): Calculate:
a) the attractive constant A.
b) the maximum interatomic force in N](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8fce8f24-3db7-4d31-96f8-6e48862acb72%2F6a1961af-ec98-4967-b29d-eaa47c229665%2F41zxcv_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question 2.
The net interatomic force between the atoms of an element is given by the following expression:
6.561x10-
10
Where F is in N and r is interatomic distance in A°, If the interatomic equilibrium distance is known as
3 A° (1 A° = 10-8 cm): Calculate:
a) the attractive constant A.
b) the maximum interatomic force in N
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