LBP Spectrum?
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The four spectral lines of the Balmer series that fall in the visible range are: 656.3 nm . . . . red 486.1 nm . . . . cyan 434.1 nm . . . . blue 410.2 nm . . . . violet There are four more lines in the Balmer series ... all in the ultraviolet ... and at least thirty-six observable lines altogether from the hydrogen atom.
There are 4 Balmer lines with wavelengths in the visible region. They are red, aqua and two shades of violet. Other Balmer lines are in the ultraviolet. The red line corresponds to the transition from n = 3 to n = 2, the subsequent ones are from the 4, 5 and 6 levels to n = 2.
Prism spectrum is formed due to DISPERSION but grating spectrum is formed due to DIFFRACTION. In prism spectrum we have only one order but in grating spectrum we can have second order too IN prism spectrum we have continuous spectrum but in gratings we have only line spectrum In prism spectrum red end will be closer to the direct ray but in grating spectrum violet end will be closer to the direct ray
The absorption lines in the infrared portion of the spectrum of a star that are produced by hydrogen are from the Balmer series. The Balmer series were discovered by Johann Balmer in 1885.
LBP Spectrum?
I believe it to be the Balmer Series.
The Balmer Series
The Balmer series is a section of the hydrogen atomic emission line spectrum. They show the wavelengths of light emitted when electrons transition back to the n = 2 quantum level.
Percy Lowe has written: 'Structure of the Balmer series lines in the spectrum of hydrogen'
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Lindsy Balmer's birth name is Lindsy Balmer Wallace.
Don Balmer is 180 cm.
George Balmer died in 1846.
Billy Balmer died in 1937.
Lori Balmer was born in 1958.