The bond energy for the van der waals bond between two helium atoms is 7.910-4ev. assuming that the average kinetic energy of a helium atom is (3/2) kbt, at what temperature is the average kinetic energy equal to the bond energy between two helium atoms? use kb=8.6210-5ev/k.

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Pedro Price

Chemistry

2 July, 14:29

The bond energy for the van der waals bond between two helium atoms is 7.910-4ev. assuming that the average kinetic energy of a helium atom is (3/2) kbt, at what temperature is the average kinetic energy equal to the bond energy between two helium atoms? use kb=8.6210-5ev/k.

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Charisma · Answer 1

Given: van der Waal's bond energy of He = 7.9*10-4ev;

and kb=8.62*10-5ev/k

Now, according to Kinetic theory of gases we know that,

K. E = 3/2 (kb) T

where T = temperature

∴ T = (2 K. E) / (3 x kb)

Now for K. E = 7.9*10-4ev

T = (2 X 7.9*10-4) / (3 X 8.62*10-5) = 6.1 K

Thus, at temperature of 6.1 K, average kinetic energy equal to the bond energy between two helium atoms

The bond energy for the van der waals bond between two helium atoms is 7.9*10-4ev. assuming that the average kinetic energy of a helium atom is (3/2) kbt, at what temperature is the average kinetic energy equal to the bond energy between two helium atoms? use kb=8.62*10-5ev/k.

The bond energy for the van der waals bond between two helium atoms is 7.910-4ev. assuming that the average kinetic energy of a helium atom is (3/2) kbt, at what temperature is the average kinetic energy equal to the bond energy between two helium atoms? use kb=8.6210-5ev/k.