According to data from NIST, OH radical molecule constant Te - minimum electronic energy (cm-1) ωe - vibrational constan

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According to data from NIST, OH radical molecule
constant
Te - minimum electronic energy (cm-1)
ωe - vibrational constant – first term (cm-1)
re - internuclear distance (Å)
Trans. - observed transition(s) corresponding to electronic
state

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Molecular orbital of OH radical is similar (a)

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2.1 Based on the data from NIST, plot the bottom state and
excited electronic placement in Figures (b), (c), and (d) above,
and explain the reason below.
(b)
(c)
(d)

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State Te(cm) We(cm) Wexe(cm) re(Å) Trans. C 2E+ 89459.1 1232.9 19.1 2.0461 C → A B 2E+ 69774 [660.0] [1.8698] BA A 25+ 32684.1 3178.86 92.917 1.0121 A X X? 0 3737.761 84.8813 0.96966
(а) 2ро* (b) 2ро* (c) 2ра* (d) 2ро* 1s 2рт 2px 2px - 2ру. 2рл 2рл 2ри 2рт 2ро | 2ро 2ро 2ро 2ѕо 2ѕо 2ѕо 2s 2ѕо 1s 1s 1s 1s 1s o ОН H Х2П А22* в22*
(0 = „“)II, X → (I = ,")+37 V
ỉ II (v" =1) — Ã ?g+(v' = 1)