Using Boltzmann equation to estimate the populations in J=1 and v 1, relative to J=0 and v-0, respectively the following values were obtained at room temperature for a diatomic molecule J=1 0.98 NJ-0 Nu-1 v=1 8.9 10- N %3D which mean Select one: O aJ-1 has almost same number of molecules as J=0, while v-1 has almost no molecules Ob. Both J=1 and v-1 have almost no molecules O c Both J= 1 and v=1 have almost same number of molecules as in J=0 and v 0 Odv-1 has almost same number of molecules as v=0, while J=1 has almost no molecules

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Using Boltzmann equation to estimate the populations in J=1 and v-1, relative to J-0 and v-0, respectively.
the following values were obtained at room temperature for a diatornic molecule
= 0.98
NJ-0
Nu-l
8.9 10-7
N.
which mean
Select one:
Oa J-1 has almost same number of molecules as J=0, while v-1 has almost no malecules
Ob. Both J=1 and v- 1 have almost no molecules
Oc Both J=1 and v=1 have almost same number of molecules as in J-0 and v=0
O d. v=1 has almost same number of molecules as v=0, while J=1 has almost no molecules
Transcribed Image Text:Using Boltzmann equation to estimate the populations in J=1 and v-1, relative to J-0 and v-0, respectively. the following values were obtained at room temperature for a diatornic molecule = 0.98 NJ-0 Nu-l 8.9 10-7 N. which mean Select one: Oa J-1 has almost same number of molecules as J=0, while v-1 has almost no malecules Ob. Both J=1 and v- 1 have almost no molecules Oc Both J=1 and v=1 have almost same number of molecules as in J-0 and v=0 O d. v=1 has almost same number of molecules as v=0, while J=1 has almost no molecules
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