Which of the following statements regarding the energy of the stationary state is true in the following one-electron systems ?
- A
+ for first orbit of He ion
- B
+ for second orbit of He ion
- C
- for third orbit of Li ion
- D
- for second orbit of H atom.
Which of the following statements regarding the energy of the stationary state is true in the following one-electron systems ?
+ for first orbit of He ion
+ for second orbit of He ion
- for third orbit of Li ion
- for second orbit of H atom.
Correct answer:C
Standard Method
Given: Statements compare energies of stationary states in one-electron systems.
Find: Which statement gives the correct energy.
For a hydrogen-like species, Bohr's formula is
The energy of a bound electron must be negative.
So, options with positive energy are false immediately. Hence Option A and Option B are eliminated.
For Li in the third orbit, and .
This matches the statement in Option C, so it is true.
For H atom in the second orbit, and .
So Option D is false.
Therefore, the correct option is C.
Quick Elimination
Given: In hydrogen-like species,
Find: The true statement.
If , then
so the energy becomes exactly
which is the energy of the first orbit of hydrogen.
For Li, and for the third orbit , so its energy is exactly .
Therefore, the correct option is C.
Treating stationary-state energy as positive. In a bound orbit, the electron energy must be negative. First check the sign before substituting values.
Using the formula without squaring and . The correct dependence is , not .
Confusing the second orbit of hydrogen with half the first-orbit energy. Since energy varies as , for it becomes one-fourth, not one-half, of the first-orbit value.
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