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  • Given below are two statements: Statement I: In hydrogen atom, the frequency of radiation emitted when an electron jumps from lower energy orbit <img alt="\mathrm{\left(E_{1

Given below are two statements:
Statement I: In hydrogen atom, the frequency of radiation emitted when an electron jumps from lower energy orbit \mathrm{\left(E_{1}\right)} to higher energy orbit \mathrm{\left(E_{2}\right)}, is given as \mathrm{h f=\mathrm{E}_{1}-\mathrm{E}_{2}}
Statement II: The jumping of electron from higher energy orbit \mathrm{\left(E_{2}\right)} to lower cnergy orbit \mathrm{\left(E_{1}\right)} is associated with frequency of radiation given as \mathrm{f=\left(\mathrm{E}_{2}-\mathrm{E}_{1}\right) / h}
This condition is Bohr's frequency condition.
In the light of the above statements, choose the correct answer from the options  given below:

Option: 1

Both statement I and statement II are true.


Option: 2

Both statement I and statement II are false.


Option: 3

Statement I is correct but Statement II is false.


Option: 4

Statement I is incorrect but Statement II is true.


Answers (1)

best_answer

When an electron jumps from a lower energy state to a higher energy state, then energy will be required radiation will be absorbed.
hence Statement - I is wrong
Statement II is correct

The correct answer is (4)

Posted by

Nehul

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