A FIUSPIke atom (molar mass 18.9984 g/mol) forms a bond with a very large molecule. In this case, this fluorine atom can be treated as a quantum particle connected to a wall by a spring. The spring force constant k 900 N/m. Which of the following vibrational quantum states (in terms of quantum number v) does have the vibration energy greater than 24942 Joule/mol, corresponding to the thermal energy of 1-mol molecules in an oven at 2000 K. (one, more than one, or no answer) The precision of your calculation is essential to obtain the correct answer(s). a) the quantum state with vibration quantum number v=0 b) the quantum state with vibration quantum number v 1 c) the quantum state with vibration quantum number v 2 a) only Ob) only o only O a) and b) b) and c) 0 and a) a), b) and c) None of the 3 staterments is true.

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A fluorine atom (molar mass = 18.9984 g/mol) forms a bond with a very large molecule. In this case, this fluorine atom can be treated
as a quantum particle connected to a wall by a spring. The spring force constant k = 900 N/m.
Which of the following vibrational quantum states (in terms of quantum number v) does have the vibration energy greater
than 24942 Joule/mol, corresponding to the thermal energy of 1-mol molecules in an oven at 2000 K. (one, more than one, or no
answer) The precision of your calculation is essential to obtain the correct answer(s).
a) the quantum state with vibration quantum number v = 0
b) the quantum state with vibration quantum number v = 1
C) the quantum state with vibration quantum numberv = 2
Oa) only
O b) only
o only
O a) and b)
Ob) and c)
O) and a)
a), b) and c)
None of the 3 staterments is true.
Transcribed Image Text:A fluorine atom (molar mass = 18.9984 g/mol) forms a bond with a very large molecule. In this case, this fluorine atom can be treated as a quantum particle connected to a wall by a spring. The spring force constant k = 900 N/m. Which of the following vibrational quantum states (in terms of quantum number v) does have the vibration energy greater than 24942 Joule/mol, corresponding to the thermal energy of 1-mol molecules in an oven at 2000 K. (one, more than one, or no answer) The precision of your calculation is essential to obtain the correct answer(s). a) the quantum state with vibration quantum number v = 0 b) the quantum state with vibration quantum number v = 1 C) the quantum state with vibration quantum numberv = 2 Oa) only O b) only o only O a) and b) Ob) and c) O) and a) a), b) and c) None of the 3 staterments is true.
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