Arrange the following orbitals in decreasing order of energy? (A)
(B)
(C)
(D)
The correct option for the order is:
- A
B D C A
- B
D B C A
- C
A C B D
- D
D B A C
Arrange the following orbitals in decreasing order of energy? (A)
(B)
(C)
(D)
The correct option for the order is:
B D C A
D B C A
A C B D
D B A C
Correct answer:A
Standard Method
Given: Four orbitals are specified by the quantum numbers:
Find: The decreasing order of orbital energies.
Use the rule for comparing orbital energies. If two orbitals have the same value, then the orbital with larger has higher energy.
From the solution:
Now compare them:
Therefore, the decreasing order is D B C A.
The solution concludes that the correct order is D B C A, which corresponds to option A in the provided options, even though the answer key says (2). Hence, following the solution, the correct option is A.
Energy Ordering by $$n + l$$ Rule
Given: The orbitals are represented through quantum numbers and .
Find: Their order in decreasing energy.
For multi-electron atoms, orbital energy increases with increasing value.
Compute:
So the largest energy must be among B and D. The extracted explanation states the final order as:
Thus, the correct sequence is D B C A.
This matches option A in the listed options.
Using the magnetic quantum number to compare orbital energies is incorrect here because energy depends primarily on and for such ordering questions. Use the rule instead.
Relying only on the principal quantum number is wrong because a orbital can have higher energy than a or vice versa depending on the comparison. Always calculate first.
Treating the hint as Hund's rule alone is misleading because this question is about orbital energy ordering, not electron filling in degenerate orbitals. Apply the rule for energy comparison.
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