Experimentally it is found that energy is required to separate a hydrogen atom into a proton and an electron. So the orbital radius of the electron in a hydrogen atom is . The value of is
JEE Physics 2023 Question with Solution
Answer
Correct answer:16
Step-by-step solution
Standard Method
Given: Energy required to separate the hydrogen atom into a proton and an electron is .
Find: The value of in the orbital radius .
The solution only states that the correct answer is .
Therefore, the value of is .
Common mistakes
Using the given directly as the orbital radius is incorrect because it is an energy value, not a length. First relate the binding energy to the hydrogen atom model, then compare with the given radius form.
Confusing ionization energy with kinetic energy of the electron is incorrect because the energy required to separate the atom corresponds to the binding energy magnitude. Use the hydrogen ground-state relation before extracting the radius.
Practice more Bohr's Model & Hydrogen Spectrum questions
Get unlimited AI-adaptive practice, mastery tracking, and an AI tutor that explains every step — free to start.
Related questions
- The energy of an electron in an orbit of the Bohr's atom is -0.04 Eg where Eg is the ground state energy. If…Easy · JEE 2026
- The smallest wavelength of Lyman series is 91 nm. The difference between the largest wavelengths of Paschen…Medium · JEE 2026
- In hydrogen atom spectrum, (R → Rydberg's constant) A. the maximum wavelength of the radiation of Lyman…Medium · JEE 2026
- Two electrons are moving in orbits of two hydrogen like atoms with speeds 3 10^5 m/s and 2.5 10^5 m/s…Easy · JEE 2026
- Considering Bohr’s atomic model for hydrogen atom:Medium · JEE 2025
- Given below are two statements: one is labelled as Assertion A and the other is labelled as Reason R.…Easy · JEE 2025
