a) The moment of inertia of a Nitrous Oxide (N2O) molecule is 40.23 u Å2. Calculate...

A certain diatomic molecule absorbs energy by rotating. The first excited rotational state is at an...

A certain diatomic molecule absorbs energy by rotating. The first excited rotational state is at an energy of 0.10 eV above the ground state. What is the energy of the second excited rotational state above the ground state? (a) 0.15 eV (b) 0.20 eV (c) 0.30 eV (d) 0.40 eV The answer is C please show me how it is that.

The cesium iodide (CsI) molecule has an atomic separation of 0.127 nm. (a) Determine the energy...

The cesium iodide (CsI) molecule has an atomic separation of 0.127 nm. (a) Determine the energy of the first excited rotational state, with J = 1. (Anser in meV) (b) Find the frequency of the photon absorbed in the J = 0 to J = 1 transition. (Answer in GHz)

1.Consider the rotation of a hydrogen bromide-79 molecule. What is the moment of inertia in kg...

1.Consider the rotation of a hydrogen bromide-79 molecule. What is the moment of inertia in kg m2 of hydrogen bromide-79? Isotope masses to three decimal places are taken from NIST and bond lengths from wikipedia. Use the isotope mass, not the average mass. 2.Next, model the rotation of hydrogen bromide-79 as a "particle on a ring". Calculate the rotational energy difference, in cm-1, between the ml=3 and ml=4 energy levels in a hydrogen bromide-79 molecule. 3.Now model the hydrogen bromide-79...

What is the reduced mass of 1H81Br? What is the moment of inertia if R=141.4 pm?...

What is the reduced mass of 1H81Br? What is the moment of inertia if R=141.4 pm? Calculate the frequency corresponding the the transition between the first and the second, and between the second and third rotational energy levels.

4. The force constant for a H35Cl molecule is 516 N m–1. a. Calculate the zero...

4. The force constant for a H35Cl molecule is 516 N m–1. a. Calculate the zero point vibrational energy for this molecule for a harmonic potential. b. Calculate the light frequency needed to excite this molecule from the ground state to the first excited state.

to which physical quantity in linear motion os the quantity "moment of inertia" analogous to in...

to which physical quantity in linear motion os the quantity "moment of inertia" analogous to in rotational motion a. kinetic energy b. velocity c. mass d. momentum part b. consider a uniform circular disk of mass M and radius R. what formula would you use to calculate its moment of inertia relative to an axis perpendicular to the plane the disk and passing through its center? I = Part c. consider a ring of mass M and inner radius R1...

Calculate the dipole moment of a water molecule. Assume the angle between the two OH bonds...

Calculate the dipole moment of a water molecule. Assume the angle between the two OH bonds is 104o and that the OH distance is 1.0 x 10-8 cm. Take the OH bonds to be purely ionic in character by assuming that all ten electrons orbit the oxygen atom. Give your answer for the dipole moment in Debye units (D) where 1 D = 3.34 x 10-30 C-m. Debye units are convenient because dipole moments of many molecules are in the...

The value of the angular-frequency variable characteristic of the vibration of an oxygen molecule O2 is...

The value of the angular-frequency variable characteristic of the vibration of an oxygen molecule O2 is 3.58 × 1014 rad/s. What is the difference in energy between the ground state for vibrations and the first excited vibrational state, in electron volts? The mass of a proton is 1.67262 × 10−27 kg , the value of ¯h is 1.05457 × 10−34 J · s, and the atomic mass unit is 1.66054 × 10−27 kg . 1 eV = 1.60218 × 10−19...

1. The shorter the wavelength of a photon, the more the photon behaves like a particle....

1. The shorter the wavelength of a photon, the more the photon behaves like a particle. Why? 2. In a H2 molecule there are two protons, and these have spin 1/2 ħ, that is, they are fermions. If we just look at the two protons, would you expect their spins to be parallel or anti parallel in the ground state of the H2 molecule? 3. Is there a type of viscosity that acts on holes in a semiconductor and gives...

1. You are being hunted by a raptor. It corners you, and begins to charge, qt...

1. You are being hunted by a raptor. It corners you, and begins to charge, qt a velocity of 20 m/s. You have constructed a trap. It consists of a trip wire that will knock the raptor down and transfer all of its KE to a phaser rifle that requires 80 kJ of energy to fire directly at your foe. If the raptor has a mass of 150 kg, will the rifle gain enough energy to fire? a)no b)not enough...