A light wave described by (in SI units) falls on a metal surface of work function . The maximum kinetic energy of ejected photoelectron is (approximately) _____ . ( and )
- A
- B
- C
- D
A light wave described by (in SI units) falls on a metal surface of work function . The maximum kinetic energy of ejected photoelectron is (approximately) _____ . ( and )
Correct answer:B
Standard Method
Given: The incident light contains two angular frequencies, and . The work function is .
Find: The maximum kinetic energy of the emitted photoelectron.
In photoelectric effect, one photon interacts with one electron. Therefore, the maximum kinetic energy is determined by the photon of highest frequency.
So we take
Photon energy is
Substituting the given values,
Converting to electron-volt,
Now apply Einstein's photoelectric equation:
Hence, the maximum kinetic energy is approximately . Therefore, the correct option is B.
Using the sum of the two frequencies or assuming both photons combine to eject one electron. This is wrong because photoelectric effect involves absorption of one photon by one electron. Use only the highest frequency photon to find the maximum kinetic energy.
Treating and as ordinary frequencies instead of angular frequencies . This is wrong because the given wave is of the form . Convert using .
Subtracting the work function in joules from photon energy in electron-volts, or mixing units midway. This is wrong because both quantities must be in the same unit before subtraction. Convert photon energy fully into eV first, then apply .
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