Answer question one please. 1) State the number of degrees of freedom of a gas composed of one of the followingNe (neon atom)b. N2 (nitrogen molecule)a.2) A diatomic molecule which consists of two atoms can have translational, rotational, and vibrationaldegrees of freedom because the molecule can translate, rotate, and vibrate. However, it is knownthat just because a molecule is capable of rotating or vibrating does not mean that there is enoughenergy available to do so. The temperature has to be high enough to enable different types ofmotion. In that case, we say that the degree of freedom is active if the temperature is high enoughor inactive if it is not. How many degrees of freedom are active in a hydrogen molecule, H2, at 500K?3) Write an expression for the internal energy U of a gas of N particles (that is, atoms or molecules) attemperature T in terms of N and T and any required constants, when the gas consists ofa. Ne (neon atoms)b. N2 (nitrogen molecules), assuming all degrees of freedom are active.4) Calculate the internal energy U of a liter of helium at room temperature and atmospheric pressure.Then repeat the calculation for a liter of air.5) The equipartition theorem allows us to write U = aNkT, where the constant a is the number of(active) degrees of freedom per molecule and k is Boltzmann's constant. Write an expression forthe change in internal energy AU.6) What does the expression for AU from the previous problem say about AU if the temperature isconstant?a22hp

Degrees of freedom = 3N N = number of atoms

Answered: 1) State the number of degrees of…

1) State the number of degrees of freedom of a gas composed of one of the following a. Ne (neon atom) b. N2 (nitrogen molecule)

Principles of Modern Chemistry

8th Edition

ISBN:9781305079113

Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Chapter20: Molecular Spectroscopy And Photochemistry

Section: Chapter Questions

Problem 57AP

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Ideal gases obey conditions of the general gas laws under all states of pressure and temperature. Ideal gases are also named perfect gases. The attributes of ideal gases are as follows,

Gas Laws

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Question

Answer question one please.

1) State the number of degrees of freedom of a gas composed of one of the following
Ne (neon atom)
b. N2 (nitrogen molecule)
a.
2) A diatomic molecule which consists of two atoms can have translational, rotational, and vibrational
degrees of freedom because the molecule can translate, rotate, and vibrate. However, it is known
that just because a molecule is capable of rotating or vibrating does not mean that there is enough
energy available to do so. The temperature has to be high enough to enable different types of
motion. In that case, we say that the degree of freedom is active if the temperature is high enough
or inactive if it is not. How many degrees of freedom are active in a hydrogen molecule, H2, at 500
K?
3) Write an expression for the internal energy U of a gas of N particles (that is, atoms or molecules) at
temperature T in terms of N and T and any required constants, when the gas consists of
a. Ne (neon atoms)
b. N2 (nitrogen molecules), assuming all degrees of freedom are active.
4) Calculate the internal energy U of a liter of helium at room temperature and atmospheric pressure.
Then repeat the calculation for a liter of air.
5) The equipartition theorem allows us to write U = aNkT, where the constant a is the number of
(active) degrees of freedom per molecule and k is Boltzmann's constant. Write an expression for
the change in internal energy AU.
6) What does the expression for AU from the previous problem say about AU if the temperature is
constant?
a
22
hp

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