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The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)
- a)68,400
- b)15,200
- c)76,000
- d)30,800
Correct answer is option 'B'. Can you explain this answer?
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The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-...
Given Data:
Wave number of the first Balmer line of Li2+ ion = 1,36,800 cm^-1
Formula:
The formula for calculating the wave number of the first line of the Balmer series for any atom is given by:
\[ \tilde{\nu} = R_H \left( \dfrac{1}{n_f^2} - \dfrac{1}{n_i^2} \right) \]
where,
- \( \tilde{\nu} \) = Wave number
- \( R_H \) = Rydberg constant for hydrogen atom
- \( n_f \) = final energy level
- \( n_i \) = initial energy level
Solution:
We are given that the wave number of the first Balmer line of Li2+ ion is 1,36,800 cm^-1. This corresponds to the transition from the second energy level to the first energy level.
Now, we need to find the wave number of the first line of the Balmer series for hydrogen atom.
Substitute the values in the formula:
For Li2+ ion: \( n_f = 1 \) and \( n_i = 2 \)
\[ 1,36,800 = R_H \left( \dfrac{1}{1^2} - \dfrac{1}{2^2} \right) \]
\[ 1,36,800 = R_H \left( 1 - \dfrac{1}{4} \right) \]
\[ 1,36,800 = R_H \times \dfrac{3}{4} \]
Now, to find the wave number for hydrogen atom:
For hydrogen atom: \( n_f = 2 \) and \( n_i = 3 \)
\[ \tilde{\nu} = R_H \left( \dfrac{1}{2^2} - \dfrac{1}{3^2} \right) \]
\[ \tilde{\nu} = R_H \left( \dfrac{1}{4} - \dfrac{1}{9} \right) \]
\[ \tilde{\nu} = R_H \times \left( \dfrac{5}{36} \right) \]
Comparing the two expressions:
\[ 1,36,800 = R_H \times \dfrac{3}{4} \]
\[ \tilde{\nu} = R_H \times \dfrac{5}{36} \]
Therefore, by solving for \( R_H \), we can calculate the wave number of the first line of the Balmer series for hydrogen atom.
Wave number of the first Balmer line of Li2+ ion = 1,36,800 cm^-1
Formula:
The formula for calculating the wave number of the first line of the Balmer series for any atom is given by:
\[ \tilde{\nu} = R_H \left( \dfrac{1}{n_f^2} - \dfrac{1}{n_i^2} \right) \]
where,
- \( \tilde{\nu} \) = Wave number
- \( R_H \) = Rydberg constant for hydrogen atom
- \( n_f \) = final energy level
- \( n_i \) = initial energy level
Solution:
We are given that the wave number of the first Balmer line of Li2+ ion is 1,36,800 cm^-1. This corresponds to the transition from the second energy level to the first energy level.
Now, we need to find the wave number of the first line of the Balmer series for hydrogen atom.
Substitute the values in the formula:
For Li2+ ion: \( n_f = 1 \) and \( n_i = 2 \)
\[ 1,36,800 = R_H \left( \dfrac{1}{1^2} - \dfrac{1}{2^2} \right) \]
\[ 1,36,800 = R_H \left( 1 - \dfrac{1}{4} \right) \]
\[ 1,36,800 = R_H \times \dfrac{3}{4} \]
Now, to find the wave number for hydrogen atom:
For hydrogen atom: \( n_f = 2 \) and \( n_i = 3 \)
\[ \tilde{\nu} = R_H \left( \dfrac{1}{2^2} - \dfrac{1}{3^2} \right) \]
\[ \tilde{\nu} = R_H \left( \dfrac{1}{4} - \dfrac{1}{9} \right) \]
\[ \tilde{\nu} = R_H \times \left( \dfrac{5}{36} \right) \]
Comparing the two expressions:
\[ 1,36,800 = R_H \times \dfrac{3}{4} \]
\[ \tilde{\nu} = R_H \times \dfrac{5}{36} \]
Therefore, by solving for \( R_H \), we can calculate the wave number of the first line of the Balmer series for hydrogen atom.
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The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)a)68,400b)15,200c)76,000d)30,800Correct answer is option 'B'. Can you explain this answer?
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The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)a)68,400b)15,200c)76,000d)30,800Correct answer is option 'B'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)a)68,400b)15,200c)76,000d)30,800Correct answer is option 'B'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)a)68,400b)15,200c)76,000d)30,800Correct answer is option 'B'. Can you explain this answer?.
The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)a)68,400b)15,200c)76,000d)30,800Correct answer is option 'B'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)a)68,400b)15,200c)76,000d)30,800Correct answer is option 'B'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The wave number of the first Balmer line of Li2+ ion is 1, 36, 800 cm-1. The wave number of the first line of Balmer series of hydrogen atom is (in cm-1)a)68,400b)15,200c)76,000d)30,800Correct answer is option 'B'. Can you explain this answer?.
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