Why do different atoms have different lines in their spectra?
Q: When an electron in a hydrogen atom moves from b=8 to n=2 light with what wavelengths is emitted?
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Q: * What happens when light energy is absorbed by the solar panel? Sunlight n-type Material p-n…
A: When sunlight falls on the solar panel, the electron absorbs the light energy and gets excited to a…
Q: An electron jumps from the 2nd level (-10 ev) to the 5th energy level (-1.0 eV) Ionization State…
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Q: In a particular atom, absorbing a photon with a wavelength of 550nm causes an electron to jump from…
A: When The electron jumps from n = 2 to n=4 state , The emitted energy is E = 13.6×[(1/2^2)-(1/4^2)]…
Q: Why does a sample such as hydrogen have 4 discrete lines of color instead of a blurry, continuous…
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Q: What is the frequency of light (in Hz) of a photon emitted when an electron in a hydrogen atom…
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Q: A visible photon passes very close to a hydrogen atom but is not absorbed. This could be because the…
A: A visible photon passes very close to hydrogen atom but it is not absorbed why??
Q: Draw a wavelength for 517nm / 5.17x10^-7.
A: wavelength is distance between peak to peak amplitudes of a wave.
Q: The average angle for a line in the hydrogen spectrum is determined to be 14.08 degrees. What is the…
A: Angle is 14.08° Wavelength d= 0.0002cm
Q: Find the difference in energy levels for a hydrogen-like titanium atom going from the seventh (7th)…
A: Tritium atom is going from 7th level to 3rd level
Q: If the energy released by an electron making a transition from one hydrogen atom orbit to another is…
A: (given) Energy released by an electron making a transition from one hydrogen atom orbit to another…
Q: What frequency of light is emitted when an electron in a hydrogen atom jumps from n=2 to the ground…
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Q: Mr. Muscedere accelerates an ELECTRON from left to right so that it leaves the electric field with a…
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Q: How can you use the emission spectrum of an element to identify it?
A: From emission spectra it is possible to identify the element. When an element gives emission…
Q: Calculate the wavelength of a photon that has an energy of 2.48 eV. (Hint: h*c {Planck's constant *…
A: To calculate the wavelength of a photon with a given energy, you can use the energy-wavelength…
Q: The allowed energies of a simple atom are 0.00eV, 3.50eV, and 5.86eV. What wavelengths appear in the…
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Q: The Brackett series in the hydrogen spectrum corresponds to transitions that have a final state of m…
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Q: The wavelength (in nm) of the visible line corresponding to n = 6 in the hydrogen visible spectra…
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Q: In a hydrogen atom, suppose an electron goes from the energy level n = 1 to another level. Going…
A: Given electron in n=1 level of hydrogen
Q: An electron in hydrogen drops from the 5th to the 3rd orbital. What is the energy of the photon…
A: Given As electron in hydrogen drops from 5th to 3rd orbit To find out The energy of photon…
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Solved in 3 steps
- Suppose you're experimenting with the spectrum produced by heated hydrogen gas. If you double the quantity of hydrogen and examine the resulting spectral lines, what is most likely to have changed? Group of answer choices The number of lines seen. The frequencies of the lines. The intensity of the lines. The pattern made by the lines. The wavelengths of the lines.Photons are emitted from an atom when an electron goes from a) the K shell to the N shell. b) the K shell to the M shell. c) the N shell to the L shell. d) the M shell to the N shell. e) the K shell to the L shell.The wavelengths for the emission lines observed in the mercury lamp spectra do not match the wavelengths calculated using the Bohr model for the hydrogen atom. Explain why.
- b) The visible spectrum of mercury is shown below: 200, 700 Mercury 280Hg 80¹ 623,4 [615,2 579 577 600 56 1546,1 (.. |502,5 ch 500 435,81 Explain what physical quantity is being measured on the scale and give the units. 407,8404,7 Explain the similarities and differences of the photons that give rise to the different bands on the spectrum. 1 400 R LAVENIf the energy released by an electron making a transition from one hydrogen atom orbit to another is 4.57 ✕ 10−19 J, what is the wavelength (in nm) of the photon?