Question 1

The rotational kinetic energy of a diatomic molecule can take the form:&#10;A)(1/2)m $ \omega $2&#10;B)(1/2)I $ \omega $2&#10;C)[m1m2/(m1 + m2)]r2 $ \omega $2&#10;D)(1/2)mv2&#10;E)1/2 $\mu$ $ \omega $2

Accepted Answer

The rotational kinetic energy of a diatomic molecule is given by (1/2)Iω², where I is the moment of inertia and ω is the angular velocity. Choice B is the only option that includes both I and ω, while the other choices involve different variables or incorrect formulas. Therefore, B is the best choice.

Question 2

The fundamental frequency of HF is 8.72 * 1013 Hz.The energy associated with a transition from the 10th to the 9th vibrational quantum number (in eV) is:&#10;A)3.61&#10;B)0.361&#10;C)0.060 5&#10;D)0.605&#10;E)0.182

Accepted Answer

We can use the formula for the energy of a vibrational transition:

E = hν (v' + 1/2) - hν(v + 1/2)

Where h is Planck's constant, ν is the frequency, v is the initial quantum number, and v' is the final quantum number.

Plugging in the given values:

E = (6.626 x 10^-34 J s)(8.72 x 10^13 Hz)((10-9) + 1/2) - (6.626 x 10^-34 J s)(8.72 x 10^13 Hz)((10) + 1/2)

E = 5.85 x 10^-20 J

Converting to eV:

E = (5.85 x 10^-20 J)/(1.602 x 10^-19 J/eV) = 0.361 eV

Therefore, the best choice is B.

Question 3

The frequency of a microwave absorbed by a molecule when changing from the J = 3 to J = 4 rotation energy state is 4.61 * 1011 Hz.The moment of inertia of the molecule (in kg . m2) is:&#10;A)5.70* 10-45&#10;B)1.45 *10-46&#10;C)1.12 *10-44&#10;D)2.91* 10-46&#10;E)9.11 *10-46

Accepted Answer

1.45 *10-46&#10;

Question 4

A diatomic molecule consists of two point masses, m1 and m2, separated by a distance r.If x is the distance from m1 to the centre of mass, find the moment of inertia in terms of x about an axis perpendicular to the molecular axis through the centre of mass.

A)0
B)m1m2 r2/m1 + m2
C)m1(r - x)2 + m2x2
D)m1x2 + m2(r - x)2
E)m2x2 + m1r2

Accepted Answer

The moment of inertia of a diatomic molecule about an axis perpendicular to the molecular axis through the centre of mass is given by:

I = m1x2 + m2(r - x)2

where r is the distance between the two masses.

From the definition of the centre of mass, we have:

m1 x + m2 (r - x) = 0

Solving for x, we get:

x = m2r / (m1 + m2)

Substituting this value of x in the equation for I, we get:

I = m1 (m2r / (m1 + m2))2 + m2 (r - m2r / (m1 + m2))2

Simplifying, we get:

I = m1m2r2 / (m1 + m2) + m2(m1r2) / (m1 + m2)2

I = m1m2r2 / (m1 + m2)2 + m1r2 / (m1 + m2)

I = (m1r2 + m2(m1 + m2 - r)x2) / (m1 + m2)

I = m1x2 + m2(r - x)2

Therefore, the moment of inertia is given by D) m1 x2 + m2(r - x)2.

Question 5

The rotation spectrum of the HCl molecule has been observed in the far infrared, around 50 * 10-6 m.The spacing between successive lines in the spectrum corresponds to radiation of wavelength equal to 5 microns (1 $\mu$ m = 10-6 m).Determine the frequency of the photon associated with this transition.

A)6 *1014 Hz
B)6 *1012 Hz
C)6 * 1011 Hz
D)6 * 1013 Hz
E)6 * 1010 Hz

Accepted Answer

The answer of The rotation spectrum of the HCl molecule...

Question 6

A diatomic molecule consists of two point masses, m1 and m2, separated by a distance r.If x is the distance from m1 to the centre of mass, find the moment of inertia in terms of x about an axis perpendicular to the molecular axis through the centre of mass.

A)0
B)m1m2 r2/m1 + m2
C)m1(r - x)2 + m2x2
D)m1x2 + m2(r - x)2
E)m2x2 + m1r2

Accepted Answer

The answer of A diatomic molecule consists of two point...

Question 7

Assume a diatomic molecule can be considered to be two point masses separated by a distance r.The centre of mass of the system is located a distance x from m1, equal to:&#10;A)m1r/(m1 + m2)&#10;B)m2r/(m1 + m2)&#10;C)(m1 + m2) r/m1&#10;D)(m1 + m2) r/m2&#10;E)r(m2/m1)

Accepted Answer

The answer of Assume a diatomic molecule can be considered...

Question 8

An oxygen molecule has a moment of inertia of 5 * 10-46 kg . m2.Calculate the bond length (in nm).Recall that the atomic mass of oxygen is 16 u (1 u = 1.66 * 10-27 kg).&#10;A)0.3&#10;B)0.1&#10;C)0.2&#10;D)0.4&#10;E)0.5

Accepted Answer

The moment of inertia (I) of an oxygen molecule can be related to its bond length (r) using the formula:
I = µr^2
where µ is the reduced mass of the molecule, given by:
µ = m/2
where m is the atomic mass of oxygen.

Substituting the given values, we have:
I = 5.46 x 10^-46 kg m^2
µ = (16/2) x 1.66 x 10^-27 kg = 1.328 x 10^-26 kg

Rearranging the first equation, we get:
r = sqrt(I / µ) = sqrt(5.46 x 10^-46 kg m^2 / 1.328 x 10^-26 kg) = 0.21 nm (approx.)

Therefore, the closest answer choice is C) 0.2.

Question 9

Assume the angular momentum of a diatomic molecule is quantised according to the relation .What are the allowed rotational kinetic energies?  &#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Assume the angular momentum of a diatomic...

Question 10

How many degrees of freedom does a diatomic molecule have?&#10;A)3&#10;B)6&#10;C)5&#10;D)7&#10;E)9

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The answer of How many degrees of freedom does a...

Question 11

The energy released when an atom takes an electron is called:&#10;A)internal energy.&#10;B)dissociation energy.&#10;C)binding energy.&#10;D)electron affinity.&#10;E)ionization energy.

Accepted Answer

The answer of The energy released when an atom takes...

Question 12

A molecule makes a transition from the J = 1 to the J = 0 rotational energy state.The wavelength of the emitted photon is 2.6* 10-3 m.What is the moment of inertia of the molecule (in kg .m2)?&#10;A)2.9 * 10-46&#10;B)5.7 * 10-45&#10;C)1.1 * 10-44&#10;D)1.5 * 10-46&#10;E)9.1 * 10-46

Accepted Answer

The answer of A molecule makes a transition from the...

Question 13

The fundamental frequency of CO is 6.42 *1013 Hz.If the atomic masses are 12 u and 16 u (1 u = 1.66 *10-27 kg), find the force constant (in N/m) for the diatomic molecule.&#10;A)970&#10;B)1530&#10;C)1850&#10;D)480&#10;E)47

Accepted Answer

The answer of The fundamental frequency of CO is 6.42...

Question 14

The dissociation energy of the hydrogen molecule is approximately 5 eV.What is the temperature of a monatomic molecule whose kinetic energy is equal to 5.000 eV?&#10;A)28 990 K&#10;B)57 970 K&#10;C)38 650 K&#10;D)23 190 K&#10;E)12 880 K

Accepted Answer

The answer of The dissociation energy of the hydrogen molecule...

Question 15

A diatomic molecule consists of two point masses, m1 and m2, separated by a distance r.If x is the distance from m1 to the centre of mass, find the moment of inertia in terms of x about an axis parallel to the molecular axis through the centre of mass.

A)0
B)m1x2 + m2(r - x)2
C)m1m2 r2(m1m2)
D)m1(r - x)2 + m2x2
E)m1x2 + m2r2

Accepted Answer

The answer of A diatomic molecule consists of two point...

Question 16

An experiment determines that there are 49 allowed rotational energies for a diatomic molecule whose moment of inertia is 2 *0 10-46 kg .m2.The maximum rotational kinetic energy (in eV) is:&#10;A)0.6&#10;B)0.2&#10;C)0.4&#10;D)0.8&#10;E)1.0

Accepted Answer

The answer of An experiment determines that there are 49...

Question 17

The force constant of HCl is 480 N/m.If the atomic masses are 1 u and 35 u (1 u = 1.66 *10-27 kg), find the fundamental frequency (in Hz).&#10;A)6.4 * 1013&#10;B)9.2 *1013&#10;C)7.7 * 1013&#10;D)8.7 * 1013&#10;E)1.4 *1013

Accepted Answer

The answer of The force constant of HCl is 480...

Question 18

The moment of inertia of a CO molecule is 1.46 *10-46 kg . m2.What is the wavelength of the photon emitted if a rotational transition occurs from the J = 3 to the J = 2 state?&#10;A)4.36 * 10-4 m&#10;B)8.71 * 10-4 m&#10;C)17.4 * 10-3 m&#10;D)5.53 * 10-4 m&#10;E)2.90 * 10-4 m

Accepted Answer

The answer of The moment of inertia of a CO...

Question 19

The rotation spectrum of the HCl molecule suggests a photon in the far infrared (around 5.0 *10-6 m) can excite the first rotational level.From this data, the moment of inertia of the HCl molecule (in kg . m2) is:

A)2.8 * 10-48
B)2.8 * 10-49
C)2.8 * 10-47
D)2.8 * 10-46
E)2.8 * 10-45

Accepted Answer

The answer of The rotation spectrum of the HCl molecule...

Question 20

Which of the following refer to the basic categories associated with the energy of a single molecule in a gaseous phase?&#10;A)nuclear, electronic, interval&#10;B)electronic, translation, rotation, vibration&#10;C)ionic, covalent, hydrogen, Van der Waals&#10;D)translation, rotation, vibration&#10;E)dipole-dipole, covalent, ionic, translation

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The answer of Which of the following refer to the...

Question 21

The diagram below shows the distance between the nuclei, pA and pB, and the electrons, e1 and e2, in a hydrogen molecule.We would expect the electrostatic potential energy of this molecule to be:  &#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of The diagram below shows the distance between...

Question 22

To find the number of electrons per unit volume with energy between E and E + dE in a metal we must multiply the number of allowed states per unit volume with energy E by:&#10;A)the probability that a state is unoccupied,  &#10;B)the probability that a state is occupied,  &#10;C)the probability that a state is unoccupied,  &#10;D)the probability that a state is occupied,  &#10;E)dE alone.

Accepted Answer

The answer of To find the number of electrons per...

Question 23

The difference between donor and acceptor atoms in a doped semiconductor is that:&#10;A)the donor energy level lies halfway between the valence band and the acceptor level.&#10;B)the donor energy level lies near the valence band and the acceptor energy level lies near the conduction band.&#10;C)donor energy levels cannot exist unless acceptor energy levels are present.&#10;D)the donor energy level lies near the conduction band and the acceptor energy level lies near the valence band.&#10;E)the acceptor energy level lies halfway between the conduction band and the donor energy level.

Accepted Answer

The answer of The difference between donor and acceptor atoms...

Question 24

In the Lennard-Jones model of the hydrogen molecule, the potential is given by .In this model, the minimum internuclear separation, r0, is:  &#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of In the Lennard-Jones model of the hydrogen...

Question 25

When a molecule jumps from a rotational energy level characterised by the rotational quantum number J to one characterised by J + 1, the change in energy, EJ + 1 - EJ, is:&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of When a molecule jumps from a rotational...

Question 26

Ellis and Randy are looking at a molecular absorption spectrum.The spectral lines appear to fall into two groups with a gap in the middle.Ellis says that this must be an absorption spectrum for transitions between the v = 0 and v = 1 vibrational states of a diatomic molecule.Randy says the gap in the middle must occur because a $\Delta$ J = 0 transition is forbidden.Which one, if either, is correct, and why?

A)Ellis, because rotational levels are separated by greater energy differences than vibrational levels.
B)Randy, because rotational levels are separated by greater energy differences than vibrational levels.
C)Ellis, because the

\Delta

J = 0 transition is the most prominent spectral line in transitions between vibrational levels.
D)Neither, because rotational levels are separated by greater energies that vibrational levels and

\Delta

J = 0 transitions are not forbidden.
E)Both, because vibrational levels are separated by greater energy differences than rotational levels and

\Delta

J = 0 transitions are forbidden.

Accepted Answer

The answer of Ellis and Randy are looking at a...

Question 27

The Fermi energy of a metal at a temperature T is 7.0 eV.What is the average energy (in eV) of a conduction electron at that temperature?&#10;A)2.8&#10;B)7.0&#10;C)3.5&#10;D)4.2&#10;E)4.7

Accepted Answer

The answer of The Fermi energy of a metal at...

Question 28

When a molecule jumps from a rotational energy level characterised by the rotational quantum number J to one characterised by J- 1, the difference in energy of levels J and J -1, EJ - EJ - 1, is:&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of When a molecule jumps from a rotational...

Question 29

The Fermi energy corresponds to:&#10;A)the maximum energy electrons can have in a metal at T = 0 K.&#10;B)the maximum energy electrons can have in a metal at T = 0 C.&#10;C)the minimum energy electrons can have in a metal at T = 0 K.&#10;D)the number of electrons per unit volume between E and E + dE.&#10;E)the minimum energy electrons can have in a metal at T = 0 C.

Accepted Answer

The answer of The Fermi energy corresponds to:&#10;A)the maximum energy...

Question 30

The energy of a molecule can normally be divided into the following categories:&#10;A)rotational and vibrational&#10;B)translational, rotational and vibrational&#10;C)electronic, translational, rotational, and vibrational&#10;D)rotational&#10;E)electronic

Accepted Answer

The answer of The energy of a molecule can normally...

Question 31

When calculating the rotational kinetic energy of a diatomic molecule, with atoms of mass m1 and m2,the moment of inertia about an axis passing through the molecule's centre of mass, with r the atomic separation, is:

A)

<strong>When calculating the rotational kinetic energy of a diatomic molecule, with atoms of mass m1 and m2,the moment of inertia about an axis passing through the molecule's centre of mass, with r the atomic separation, is:</strong> A) B) C) D) E) <div style=padding-top: 35px>

B)

C)

D)

E)

Accepted Answer

The answer of When calculating the rotational kinetic energy of...

Question 32

The Fermi temperature of copper is 80 000 K.The corresponding Fermi energy (in eV) is:&#10;A)7&#10;B)5&#10;C)3&#10;D)1&#10;E)4

Accepted Answer

The answer of The Fermi temperature of copper is 80...

Question 33

In comparing vibrational and rotational levels in molecules, we find that the energy separation between adjacent energy levels is:&#10;A)the same in rotational and vibrational levels.&#10;B)greater in rotational than in vibrational levels.&#10;C)greater in vibrational than in rotational levels.&#10;D)directly proportional with one rotational level for each vibrational level.&#10;E)inversely proportional with one rotational level for each vibrational level.

Accepted Answer

The answer of In comparing vibrational and rotational levels in...

Question 34

The wave functions of some molecules are a combination of wave functions with different values of the orbital quantum number .The wave function of PF5 combines s, p and d states in an sp3d hybrid orbital.We would expect such an overlap of wave functions in individual molecules to represent:

A)ionic bonding.
B)metallic bonding.
C)covalent bonding.
D)Van der Waal's bonding.
E)hydrogen bonding.

Accepted Answer

The answer of The wave functions of some molecules are...

Question 35

When a voltage$\Delta$V is applied to a p-n junction diode at absolute temperature T, the current voltage relationship is:&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of When a voltage$\Delta$V is applied to a...

Question 36

The Fermi temperature is:&#10;A)a characteristic temperature of an electron gas at a physical temperature of absolute zero.&#10;B)a characteristic temperature of an electron gas at a physical temperature of 0 $\degree$ Celsius.&#10;C)the temperature of the electron gas in absolute degrees.&#10;D)related to the Fermi energy by the relation EF = (3/2) kT.&#10;E)independent of the Fermi energy.

Accepted Answer

The answer of The Fermi temperature is:&#10;A)a characteristic temperature of...

Question 37

The energy gap for germanium is 0.670 eV at room temperature.What wavelength must a photon have (in nm) to excite the electron to the conduction band?&#10;A)640&#10;B)1090&#10;C)1850&#10;D)2200&#10;E)925

Accepted Answer

The answer of The energy gap for germanium is 0.670...

Question 38

An energy band in a solid consists of:&#10;A)an infinite number of levels, with each level corresponding to a point in a box.&#10;B)a large number of energy levels so closely spaced that they may be regarded as a continuous band.&#10;C)an infinite number of wave functions, with each wave function corresponding to a point in a box.&#10;D)a large number of electrons so closely spaced that they may be regarded as a continuous band of electric charge.&#10;E)an infinite number of electrons, with each electron corresponding to a point in a box.

Accepted Answer

The answer of An energy band in a solid consists...

Question 39

Because HF, hydrogen fluoride, is a covalent gaseous molecule at room temperature, we might reasonably expect that at room temperature HCl, hydrogen chloride, is:&#10;A)a covalent gaseous molecule.&#10;B)a covalent solid.&#10;C)a metallic gas.&#10;D)a metallic solid.&#10;E)an ionic solid.

Accepted Answer

The answer of Because HF, hydrogen fluoride, is a covalent...

Question 40

If an electric field is applied to a metal:&#10;A)very few electrons are excited into the conduction band.&#10;B)electrons having energies near the Fermi energy require only a small amount of additional energy from the applied field to reach nearby empty energy states.&#10;C)electrons having energies near the bottom of the band require only a small amount of additional energy from the applied field to reach nearby empty energy states.&#10;D)the principal mode of conduction is through the motion of holes in the filled part of the band.&#10;E)the Fermi energy Ef becomes equal to the applied electric field E.

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The answer of If an electric field is applied to...

Question 41

The smallest object one can distinguish using the electron microscope is on the order of one nanometer (1 nm = 10-9 m).How many atoms of gold are contained in a cube whose edge is 1 nm long? The atomic mass of gold is 197 and its density is 19.3 g/cm3.

Accepted Answer

The answer of The smallest object one can distinguish using...

Question 42

An LED emits light of wavelength 600 nm.What is its band gap?&#10;A)1.11 eV&#10;B)1.54 eV&#10;C)1.99 eV&#10;D)2.07 eV&#10;E)2.33 eV

Accepted Answer

The answer of An LED emits light of wavelength 600...

Question 43

Solid argon has a density of 1650 kg/m3.The atomic weight of argon is 40.0.Assuming each atom occupies a cubical volume, what is the distance between the argon atoms?

Accepted Answer

The answer of Solid argon has a density of 1650...

Question 44

In the hydrogen molecule, H2, the separation between the protons is 10-10 m.If the molecule is in its first rotational energy state, what is the angular velocity of the molecule about its centre of mass?

Accepted Answer

The answer of In the hydrogen molecule, H2, the separation...

Question 45

The energy gap for a semiconductor is 1.25 eV.Of the frequencies given below, what is the minimum frequency photon than can move an electron from the valence band to the conduction band?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of The energy gap for a semiconductor is...

Question 46

What is the energy of the first rotational state of the hydrogen (H2) molecule? The separation between the protons is 10-10 m and the mass of each proton is 1.67 *10-27 kg.(h = 6.626 * 10-34 J . s and 1 eV = 1.6 *10-19 J.)

Accepted Answer

The answer of What is the energy of the first...

Deck 20: Quantum Physics of Molecules and Solids