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Therefore, there are 5 emission lines in the given spectrum of the atomic hydrogen that can be seen with the naked eye.The maximum number of emission lines when the excited electron of a H atom in n = 6 drops to the ground state is 2(n−n)(n−n+1)=25×6=15 lines.The light emitted by hydrogen atoms is red because, of its four characteristic lines, the most intense line in its spectrum is in the red portion of the visible spectrum, at 656 nm.
What is the maximum number of emission of lines?
The maximum number of emission lines when the excited electron of a H atom in n = 6 drops to the ground state is 2(n−n)(n−n+1)=25×6=15 lines.
How many lines does the emission spectrum of hydrogen have?
The light emitted by hydrogen atoms is red because, of its four characteristic lines, the most intense line in its spectrum is in the red portion of the visible spectrum, at 656 nm.
What would be the maximum number of emission lines for atomic hydrogen that you would expert to see
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What is the maximum number of emission lines when excited hydrogen?
What is the maximum number of emission lines when the excited electron of a hydrogen atom in n = 6 drops to the ground state? The Correct Answer is (C) 15 lines.
What is the maximum number of emission lines possible for a hydrogen atom in the n 4 state?
Yes, clearly there are eight spectral lines that can be drawn when an electron makes a transition from n=4 to ground state in four different cases (as in the diagram).
What is the maximum number of emission lines obtained when the excited electron of hydrogen atom is n 5 drops to ground state?
Hence, a total number of (5 + 4 + 3 + 2 + 1) 15 lines will be obtained in the emission spectrum.
What is the maximum number of emission lines when the excited electron of a hydrogen atom in n 5?
Hence the total number of spectral line will be: 26×5=15.
What is the emission spectrum of hydrogen?
| Wavelength | Color |
|---|---|
| 656.2 | red |
| 486.1 | blue-green |
| 434.0 | blue-violet |
| 410.1 | violet |
See some more details on the topic What would be the maximum number of emission lines for atomic hydrogen that you would expect? here:
atomic hydrogen emission spectrum – Chemguide
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6.3: Line Spectra and the Bohr Model – Chemistry LibreTexts
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Why does hydrogen spectrum have 4 lines?
Although hydrogen has only one electron, it contains many energy levels. When its electron jumps from higher energy level to a lower one, it releases a photon. Those photons cause different colours of light of different wavelengths due to the different levels. Those photons appear as lines.
Why is the emission spectrum of hydrogen a line spectrum?
The emission spectrum of atomic hydrogen has been divided into a number of spectral series, with wavelengths given by the Rydberg formula. These observed spectral lines are due to the electron making transitions between two energy levels in an atom.
What should be the maximum number of lines obtained in the spectrum?
The maximum number spectral lines possible is 4. 3 spectral lines are obtained for the transition 4→3→2→1 and one spectral line is obtained for any one of the following transition 4→1 or 4→3→1 or 4→2→1.
What is the maximum number of emission lines when excited electron of H atom in n=6 drops to….
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How many spectral lines are formed in hydrogen spectrum when excited electrons jump from 5th orbit to 1st in multiple steps?
So there are 6 spectral lines are produced.
How many spectral lines will be visible in emission spectrum of H atom if electrons transitions are from 5th excited state to ground state?
The series of visible lines in the hydrogen atom spectrum is called the Balmer series. This series of spectral emission lines occur when the electron transitions from a high-energy level to the lower energy level of n=2. Hence, the correct answer is Option (A) 5 lines.
What is the maximum number of spectral lines emitted by a hydrogen when it is in third excited state?
What is the maximum number of spectral lines are emitted by a H-atom when it is in the third excited state? 5. 6-number of lines are emitted.
What is the maximum number of emission lines obtained when the excited electron of a hydrogen atom in n 4 drops to the ground state?
no. of lines in spectrum =2n(n−n)=24(4−1)=6.
What is the maximum possible number of spectral lines observed when the hydrogen atom is in its second excited state?
Solution : In second excited state the electron is in `3^(rd)` orbit. To reach the ground state, the possible transitions will be n= 3 to n = 2,n =3 to n = 1, and n = 2 to n =1. <br> Thus the total number of spectral line observed will be three.
What is the maximum number of emission lines when the excited electron of an atom in an equal to 6 drops to the ground state?
– Therefore the maximum number of emission lines formed when the excited electron of H atom in n = 6 drops to the ground state is 15. – Means an electron forms 15 emission lines when it drops from n = 6 to ground level.
How do I calculate the number of emission lines?
Possible spectral lines= (n2-n1)(n2-n1+1)/2 this is the possible numbers. But in visible region, electron when jumps from n2=5 to n1=1 then according to the formula possible lines=(5-1)(5-1+1)/2=10So the possibilities are 5 to 4, 5 to 3, 5 to 2, 5 to 1, 4 to 3, 4 to 2, 4 to 1, 3 to 2, 3 to 1, 2 to 1.
How many spectral lines are emitted from a sample of hydrogen atoms when electrons present in n th energy level return to ground state?
The electron energy level diagram for the hydrogen atom. He found that the four visible spectral lines corresponded to transitions from higher energy levels down to the second energy level (n = 2). This is called the Balmer series.
Atomic hydrogen is excited to the nth energy level . The maximum number of spectral lines whics:
Images related to the topicAtomic hydrogen is excited to the nth energy level . The maximum number of spectral lines whics:
Which of the following series of lines are only lines in hydrogen spectrum which appear in the visible region?
This series of the hydrogen emission spectrum is known as the Balmer series. This is the only series of lines in the electromagnetic spectrum that lies in the visible region. The value, 109,677 cm–1, is called the Rydberg constant for hydrogen.
How do you find the number of spectral lines in hydrogen spectrum?
A spectral line could be either an emission line (or) absorption line. We can calculate the total number of spectral lines of hydrogen atoms from higher energy level orbital to the lower energy level orbital.
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