13. cas Use the curve of Fig 24-17 to estimate the stiffness constant K for the H₂ molecule. (Recall that PE = 1/2 KX₂²) (6) Then estimate the fundamental wavelength for vibrational transitions using the classical formula (Chil), but use only. 2 the mass of an It atom (ble both I atoms move)

icon
Related questions
Question
6
13. cas Use the curve of Fig 24-17 to estimate the stiffness constant
1/2 Kx²)
'/z
K for the H₂ molecule. (Recall that PE =
(6) Then estimate the fundamental wavelength for vibrational
transitions using the classical formula (Chil), but use only.
the mass of an It atom (blc both I atoms move)
Transcribed Image Text:13. cas Use the curve of Fig 24-17 to estimate the stiffness constant 1/2 Kx²) '/z K for the H₂ molecule. (Recall that PE = (6) Then estimate the fundamental wavelength for vibrational transitions using the classical formula (Chil), but use only. the mass of an It atom (blc both I atoms move)
PE
0.1 nm
To=0.074 nm
-4.5 ev
Figure 29-17
SHO (kx²)
H₂
molecule
Transcribed Image Text:PE 0.1 nm To=0.074 nm -4.5 ev Figure 29-17 SHO (kx²) H₂ molecule
Expert Solution
steps

Step by step

Solved in 2 steps with 2 images

Blurred answer