The equilibrium internuclear distance in H35Cl molecule is 127.5 pm. (a) Calculate the reduced mass and...
The equilibrium internuclear distance in H35Cl molecule is 127.5
pm.
(a) Calculate the reduced mass and moment of inertia of the
molecule.
(b) Determine the values of angular momentum L, projection of
angular momentum Lz, energy E for the rotational quantum state with
J=1.
Homework Answers
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The equilibrium internuclear distance in H35Cl molecule is 127.5
pm.
(a) Calculate the reduced mass and...
Problem 18.37 Part A Calculate the reduced mass for H2, which has a bond length of...
Problem 18.37 Part A Calculate the reduced mass for H2, which has a bond length of 75.69 pm . Part B Calculate the moment of inertia for H2, which has a bond length of 75.69 pm . Part C Calculate the angular momentum in the J=1 rotational level for H2, which has a bond length of 75.69 pm . Part D Calculate the energy in the J=1 rotational level for H2, which has a bond length of 75.69 pm .
Calculate the moment of inertia, the magnitude of the rotational angular momentum, and the energy in the J - 4 rotational state for 14N2 Calculate the moment of inertia, the magnitude of the rot...
Calculate the moment of inertia, the magnitude of the rotational angular momentum, and the energy in the J - 4 rotational state for 14N2
Calculate the moment of inertia, the magnitude of the rotational angular momentum, and the energy in the J - 4 rotational state for 14N2
The equilibrium internuclear distance is 246 pm for an ionic compound A-X. Calculate the dipole moment...
The equilibrium internuclear distance is 246 pm for an ionic compound A-X. Calculate the dipole moment of the ionic compound in gas phase. (A) 3.94x10-29 cm (B) 3.94x10-2 Cm (C) -3.94x10-29 Cm (D) 3.94x10 cm
12. The equilibrium bond distance of potassium iodide, "K1I is 3.048 Å. (Hint: K-39 mass =...
12. The equilibrium bond distance of potassium iodide, "K1I is 3.048 Å. (Hint: K-39 mass = 38.963707 amu; 1-127 mass = 126.917871 amu) (a) Calculate its reduced mass and its moment of inertia. (b) Calculate the energy for the state J = 3. (8 pts)
The atoms of an LiCl molecule are separated by a distance r = 0.200 nm. (a)...
The atoms of an LiCl molecule are separated by a distance r = 0.200 nm. (a) Calculate the reduced mass of an LiCl molecule. kg (b) Calculate the moment of inertia of an LiCl molecule. kg · m2 (c) Calculate the wavelength of radiation emitted when an LiCl molecule undergoes a transition from the J = 2 state to the J = 1 state. cm
4. Rotational levels of 1602 Calculate the moment of inertia of the 1"02 molecule given that its ...
Give details.
4. Rotational levels of 1602 Calculate the moment of inertia of the 1"02 molecule given that its bond length is 120.8 pm and that the atomic mass of 160 is 15.9949 g/mol. a. b. Calculate the rotational constant B in cm and the energy of the first 3 rotational states in cm Infer the wavenumber of the first two rotational lines c. Sketch the rotational spectrum of 1602
4. Rotational levels of 1602 Calculate the moment of inertia...
. The rotational motion of molecules has an effect on the equilibrium separation of the nuclei,...
. The rotational motion of molecules has an effect on the equilibrium separation of the nuclei, a phenome- non known as bond stretching. To model this effect, con- sider a diatomic molecule with reduced mass u, oscilla- tor frequency wo, and internuclear separation Ro when the angular momentum is zero. The effective potential energy for nonzero values of l is then (see Section 8.5) ħ2 ont OBRO Veff = { uwz(- Ro)2 + ece + 1) sileib in I DEOQC1103...
Compute the interatomic distance between two atoms inside a diatomic molecule given spectroscopic data (the rotational t...
Compute the interatomic distance between two atoms inside a diatomic molecule given spectroscopic data (the rotational temperature) Θ r o t This problem has two questions. The first is for a real molecule . The second is a hypothetical molecule (made up atomic masses and Θ r o t ) 1) compute the internuclear separation for 35Cl2 in picometers (pm). For consistent mass data use values from: 2) Consider a hypothetical diatomic molecule where the mass of atom 1 =...
Vibration and Rotation Exercise 4 Part E ReviewI Constants Periodic Table Assume that for H5Cl mo...
Vibration and Rotation Exercise 4 Part E ReviewI Constants Periodic Table Assume that for H5Cl molecule the rotational quantum number J is 9 and vibrational quantum number n0. The isotopic mass of H atom is 1.0078 amu and the isotopic mass of 35CI atom is 34.9688 amu, k 516 N m-1, and Ze = 127.5 pm. Calculate the period for vibration. Express your answer in seconds to three significant figures. Tvibrastional Submit tAn ▼ Part F Calculate the period for...
A certain molecule has a characteristic rotational energy of 8.26x10-4 eV. What is the energy of...
A certain molecule has a characteristic rotational energy of 8.26x10-4 eV. What is the energy of the decay photon towards the state with angular momentum quantum number l = 9? Note: The selection rules of delta l = +/- 1 tell you to what state it can decay. Please show work.
Calculate the moment of inertia, the magnitude of the rotational angular momentum, and the energy in the J - 4 rotational state for 14N2
Calculate the moment of inertia, the magnitude of the rotational angular momentum, and the energy in the J - 4 rotational state for 14N2
The equilibrium internuclear distance is 246 pm for an ionic compound A-X. Calculate the dipole moment of the ionic compound in gas phase. (A) 3.94x10-29 cm (B) 3.94x10-2 Cm (C) -3.94x10-29 Cm (D) 3.94x10 cm
12. The equilibrium bond distance of potassium iodide, "K1I is 3.048 Å. (Hint: K-39 mass = 38.963707 amu; 1-127 mass = 126.917871 amu) (a) Calculate its reduced mass and its moment of inertia. (b) Calculate the energy for the state J = 3. (8 pts)
Give details.
4. Rotational levels of 1602 Calculate the moment of inertia of the 1"02 molecule given that its bond length is 120.8 pm and that the atomic mass of 160 is 15.9949 g/mol. a. b. Calculate the rotational constant B in cm and the energy of the first 3 rotational states in cm Infer the wavenumber of the first two rotational lines c. Sketch the rotational spectrum of 1602
4. Rotational levels of 1602 Calculate the moment of inertia...
. The rotational motion of molecules has an effect on the equilibrium separation of the nuclei, a phenome- non known as bond stretching. To model this effect, con- sider a diatomic molecule with reduced mass u, oscilla- tor frequency wo, and internuclear separation Ro when the angular momentum is zero. The effective potential energy for nonzero values of l is then (see Section 8.5) ħ2 ont OBRO Veff = { uwz(- Ro)2 + ece + 1) sileib in I DEOQC1103...
Vibration and Rotation Exercise 4 Part E ReviewI Constants Periodic Table Assume that for H5Cl molecule the rotational quantum number J is 9 and vibrational quantum number n0. The isotopic mass of H atom is 1.0078 amu and the isotopic mass of 35CI atom is 34.9688 amu, k 516 N m-1, and Ze = 127.5 pm. Calculate the period for vibration. Express your answer in seconds to three significant figures. Tvibrastional Submit tAn ▼ Part F Calculate the period for...
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