The potential function between molecules of a simple non-polar gas, when the mass centres are separated by a distance r, is given by the well-known expressions: 9(r) = 4€[($) ? – (ệ)*I For this gas in question: &/k = 120K and bo = No' =0.063 m³/kmol b) What is the separation between the molecules when p(r) is a minimum?
The potential function between molecules of a simple non-polar gas, when the mass centres are separated by a distance r, is given by the well-known expressions: 9(r) = 4€[($) ? – (ệ)*I For this gas in question: &/k = 120K and bo = No' =0.063 m³/kmol b) What is the separation between the molecules when p(r) is a minimum?
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![The potential function between molecules of a simple non-polar gas, when the mass centres are
separated by a distance r, is given by the well-known expressions:
9(r) = 4€[(÷) ? – (÷)*]
For this gas in question: &/k = 120K and b, - No'=0.063 m³/kmol
b) What is the separation between the molecules when (r) is a minimum?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc1680a10-c47b-4392-92a8-b8c0609f708e%2F24431ccd-de66-42d7-b062-04711ffd3334%2Fwgqs93c_processed.png&w=3840&q=75)
Transcribed Image Text:The potential function between molecules of a simple non-polar gas, when the mass centres are
separated by a distance r, is given by the well-known expressions:
9(r) = 4€[(÷) ? – (÷)*]
For this gas in question: &/k = 120K and b, - No'=0.063 m³/kmol
b) What is the separation between the molecules when (r) is a minimum?
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