The spacing of lines in the microwave spectrum of 35Cl19F is 1.033 cm-1; Calculate the moment of inertia and the bond length of the molecule.
The spacing of lines in the microwave spectrum of 35Cl19F is 1.033 cm-1; Calculate the moment...
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...
3. The spacing between the J = 0 and J = 1 lines (corresponding to l = 0,1 = 1 quantum numbers) of the rotational spectrum of HI is 13.2 cm-1, which corresponds to B = AE0–1/2 = 6.6 cm-1. The principal isotope of Iodine has a mass of 127 amu. From this information, determine: (a) What is the moment of inertia of HI? (b) What is the HI bond length? (c) What is AE0_1 for deuterium iodide?
5. In the microwave spectrum of 12C16O, the J1 rotational transition has been measured at 115 271.204 MHz. Calculate the value of the moment of inertia and the internuclear separation re in CO. Discuss the factors limiting the accuracy of re as compared to that of the spectroscopic measurement. (10 pts) 5. In the microwave spectrum of 12C16O, the J1 rotational transition has been measured at 115 271.204 MHz. Calculate the value of the moment of inertia and the internuclear...
The bond length of 1 H 35 Cl is 127.46 pm . The atomic masses for 1 H and 35 Cl are 1.0078 amu and 34.9689 amu , respectively. Calculate the value of B in cm^-1 Calculate the spacing between lines in the pure rotational spectrum of this molecule in units of s −1
The figure below shows the infra-red rotation-vibration spectrum of nitrous oxide gas (N20). N20 드 2200 2210 2220 2230 2240 v/cm-1 From the information in the figure, and giving an outline of your working, calculate a value for the moment of inertia of this linear molecule for its active rotational mode. The figure below shows the infra-red rotation-vibration spectrum of nitrous oxide gas (N20). N20 드 2200 2210 2220 2230 2240 v/cm-1 From the information in the figure, and giving...
Physical Chemistry II 1. The lines of the rotational spectrum of 12C16O are equally spaced by 7.791 10‐26 kJ. Calculate the length Req of the of the C‐O bond. It is given that 1. The lines of the rotational spectrum of 12C160 are equally spaced by 7.791 1026 kJ. Calculate the length Reg of the of the C-O bond. It is given that Ej = J( + 1)h2/2uRa ħ= 1.054572 10-24 m².kg/s or J. NA = 6.022 102 mol Atomic...
(c) Calculate the moment of inertia of a CH35Cl3 molecule around a rotational axis that contains the C-H bond The C-CI bond length is 177 pm and the HCCI angle is 107°, m(35Cl) 34.97 u.
The microwave emission spectrum of a linear molecule from an unknown source in a distant galaxy has transitions spaced at an interval of 1.80 cm-1, with a maximum intensity occurring in the 7th line. What is the average temperature in this galaxy, in Kelvin? Take care assigning the value of J for this transition.
The turntable in a microwave oven has a moment of inertia of 0.045 kg⋅m2and is rotating once every 4.0 s .What is its kinetic energy? Constants Periodic Table ▼ Part A The turntable in a microwave oven has a moment of inertia of 0.045 kg.m2 and is rotating once every 4.0 s What is its kinetic energy? Express your answer with the appropriate units. |K-1 Value Units Request Answer Submit
2. The vibrational frequency of gaseous N O is 1904 cm. Assume this molecule is a harmonic oscillator 2.1 What is the energy of the electromagnetic wave corresponding to this vibrational frequency? 2.2 Calculate the force constant of "NO 2.3 Calculate the vibrational frequency of gaseous N O. The isotopic effect does not change the force constant of the harmonic oscillator. 2.4 When "N'O is bound to hemoglobin A (Hb or Hgb, the iron-containing oxygen-transport metalloprotein in the red blood...