Q2: Find the wavelength of the third line in the Lyman series, and identify the type of electromagnetic radiation. (R-1.097373x10'm)

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Chapter1: Units, Trigonometry. And Vectors
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Q2: Find the wavelength of the third line in the Lyman series, and
identify the type of electromagnetic radiation. (R-1.097373x10'm)
Q3 if a hydrogen atom has its electron in the n=4 state, how much
energy in eV is needed to ionize it?
Q5: A hydrogen atom in an excited state can be ionized with less
energy than when it is in its ground state. What is n for a hydrogen
atom if 0.850 ev of energy can ionize it?
Q4: Find the radius of a hydrogen atom in the n=2 state according to
Bohr's theory. (a=0.53x1010m
Q6: what is the smallest wavelength line in the Balmer series? Is it in
the visible part of the spectrum?
Q: Show that the first line of the Paschen series is in the infrared part
of the spectrum.
Q: A wavelength of 4653nm is observed in a hydrogen spectrum for a
transition that ends in the n=5 level. What was n for the initial level of
the electron?
Q: Draw the possible transitions of the hydrogen atom between the
n=8 to n=2
Transcribed Image Text:Q2: Find the wavelength of the third line in the Lyman series, and identify the type of electromagnetic radiation. (R-1.097373x10'm) Q3 if a hydrogen atom has its electron in the n=4 state, how much energy in eV is needed to ionize it? Q5: A hydrogen atom in an excited state can be ionized with less energy than when it is in its ground state. What is n for a hydrogen atom if 0.850 ev of energy can ionize it? Q4: Find the radius of a hydrogen atom in the n=2 state according to Bohr's theory. (a=0.53x1010m Q6: what is the smallest wavelength line in the Balmer series? Is it in the visible part of the spectrum? Q: Show that the first line of the Paschen series is in the infrared part of the spectrum. Q: A wavelength of 4653nm is observed in a hydrogen spectrum for a transition that ends in the n=5 level. What was n for the initial level of the electron? Q: Draw the possible transitions of the hydrogen atom between the n=8 to n=2
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