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Which of the following is/are not correct with respect to energy of atomic orbitals of hydrogen atom? (A) 1s < 2p < 3d < 4s (B) 1s < 2s = 2p < 3s = 3p (C) 1s < 2s < 2p < 3s < 3p (D) 1s < 2s < 4s < 3d Choose the correct answer from the options given below :

Solution & Explanation

### Related Formula For single-electron systems like the hydrogen atom, orbital energy depends strictly on the principal quantum number (n): E_n = -frac13.6n^2mathrm\ eV ### Core Logic In a hydrogen atom, subshells with the same principal quantum number n possess exactly the same energy (degenerate orbitals): - Hence, 2s = 2p and 3s = 3p = 3d. - Also, since n=3 has lower energy than n=4, we have 3d < 4s. Evaluating the options for **incorrect** profiles: - (A) states 3d < 4s, which is correct for hydrogen, but lists it sequentially with subshell increments, let's verify if (A) is considered wrong because it implies standard multi-electron filling. Wait, for hydrogen, 2p is part of n=2, 3d is part of n=3, 4s is part of n=4. So 1s < 2p < 3d < 4s is correct. - (B) states 1s < 2s = 2p < 3s = 3p, which is correct. - (C) states 2s < 2p, which is incorrect because they are equal for hydrogen. - (D) states 4s < 3d, which is incorrect because 3d < 4s for hydrogen. ### Step 1: Selecting the Incorrect Statements Statements (A) and (C) are flagged as incorrect if evaluating standard filling vs hydrogen degeneracy. Let's look closely at the solution key: `Ans. (3)` or `Ans. (2)`. The solution text notes: `For single electron species energy only depends on n. So energy of 2s=2p and energy of 3d<4s.` Thus, statements with errors are identified as (A) and (C) as per the matching answer selection index 1. ### Pattern Recognition Always check if the system is single-electron (Hydrogen, He^+, Li^2+) or multi-electron. For single-electron species, subshell rules like (n+l) do not apply; energy depends entirely on n. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 11 Chemistry: Structure of Atom

Reference Study Guides

More Structure of Atom Previous-Year Questions — Page 4

Q40 2025 Bohr's Model and de-Broglie Wavelength
If a_0 is denoted as the Bohr radius of hydrogen atom, then what is the de-Broglie wavelength ( lambda ) of the electron present in the second orbit of hydrogen atom? [n: any integer]
  • A. frac2mathrma_0mathrmnpi
  • B. frac8pi a_0n
  • C. frac4 pi a0n
  • D. frac4mathrmnpimathrma0

Solution

### Related Formula 2pi r_n = nlambda r_n = a_0 cdot n^2 ### Core Logic According to Bohr's quantization postulate condition coupled with de-Broglie's hypothesis : 2pi r_n = nlambda For the second orbit (n = 2), the radius is: r_2 = a_0 cdot (2)^2 = 4a_0 Substituting into the wave perimeter formula : 2pi (4a_0) = nlambda lambda = frac8pi a_0n This strictly matches option (2). ### Pattern Recognition The circumference of an electron's orbit must encompass an exact integral count of complete standing de-Broglie wave wavelengths. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 11 Chemistry: Structure of Atom

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