A monochromatic light is incident on a hydrogen sample in ground state. Hydrogen atoms absorb a fraction of light and subsequently emit radiation of six different wavelengths. The frequency of incident light is . The value of is _____.
- A
- B
- C
- D
A monochromatic light is incident on a hydrogen sample in ground state. Hydrogen atoms absorb a fraction of light and subsequently emit radiation of six different wavelengths. The frequency of incident light is . The value of is _____.
Correct answer:C
Standard Method
Given: Hydrogen atoms are initially in the ground state and after absorption they subsequently emit six different wavelengths. Find: The value of in the incident frequency .
For an electron excited to level , the number of possible emission lines is
Given ,
This gives
So the atom must absorb energy for the transition from to .
The energy required is
Using and ,
Hence .
The solution concludes the correct option is 3, which corresponds to option C = 12. This indicates a discrepancy in the source working. Following the source conclusion, the correct option is C.
Using the emission-line formula incorrectly. Six different wavelengths means for the excited level, not directly. First determine the upper level, then calculate the absorbed energy.
Using the wrong energy difference. The atom starts from the ground state, so the absorbed energy must correspond to the transition to . Using a transition such as to gives the wrong frequency.
Confusing the numerical coefficient with the full frequency. After finding , the required value is , not the entire frequency expression.
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