A. Find 3 spectral lines of Hydrogen in the near-Infrared. (Between 800nm and 1200nm wavelength.) Give...

The hydrogen atom, changing from its first excited state to its lowest energy state, emits light...

The hydrogen atom, changing from its first excited state to its lowest energy state, emits light with a wavelength of 122 nm. That is in the far ultraviolet. The sodium atom, which like hydrogen has one electron that gets excited outside a core of 10 other electrons, emits light at 589 nm making a similar transition from its first excited state to its lowest state. Which of these statements would be true about the sodium and hydrogen atoms and their...

The hydrogen atomic emission spectrum includes a UV line with a wavelength of 92.323 nm. Photons...

The hydrogen atomic emission spectrum includes a UV line with a wavelength of 92.323 nm. Photons of this wavelength are emitted when the electron transitions to nf = 1 as the final energy state. Show all steps and round answers to correct sig figs. a) Is this line associated with a transition between different excited states or between an excited state and the ground state? b) What is the energy of the emitted photon with wavelength 92.323 nm? c) What...

The Width of Spectral Lines: The average time after excitation at which a group of atoms...

The Width of Spectral Lines: The average time after excitation at which a group of atoms radiate is called the lifetime, t, of an excited state. Due to Heisenberg uncertainty principle, the excited state energy has a corresponding uncertainty of DE, which is responsible for the width of spectral lines known as natural linewidth (natural broadening). If t = 1.0´10-8 s, calculate the energy uncertainty of the excited sate. Compute the natural linewidth Df of light due to transition from...

An electron in an excited state of a hydrogen atom emits two photons in succession, the...

An electron in an excited state of a hydrogen atom emits two photons in succession, the first at 3037 nm and the second at 94.92 nm, to return to the ground state (n=1). For a given transition, the wavelength of the emitted photon corresponds to the difference in energy between the two energy levels. What were the principal quantum numbers of the initial and intermediate excited states involved?

Calculate the wavelength, in nanometers, of the spectral line produced when an electron in a hydrogen...

Calculate the wavelength, in nanometers, of the spectral line produced when an electron in a hydrogen atom undergoes the transition from the energy level n = 7 to the level n = 1.

The electron in a hydrogen atom is excited to the n = 6 shell and emits...

The electron in a hydrogen atom is excited to the n = 6 shell and emits electromagnetic radiation when returning to lower energy levels. Determine the number of spectral lines that could appear when this electron returns to the lower energy levels, as well as the wavelength range in nanometers.

The Balmer lines are from a) The transition of hydrogen atoms into the lowest energy level...

The Balmer lines are from a) The transition of hydrogen atoms into the lowest energy level b) The transition of hydrogen atoms into the n=2 level. c) The transition of helium atoms into the lowest energy level. d) The transition of oxygen atoms to the lowest energy level. Emission lines are caused when an electron moves ____ energy; Absorption lines are caused when an electron moves ______ energy a) to higher; to lower b) to a higher n; to a...

Which of the following statements about how light can interact with atoms is correct? (Check all...

Which of the following statements about how light can interact with atoms is correct? (Check all that are correct) The photons most likely to ionize atoms have the longest wavelengths An atom can most easily absorb a photon with an energy that is equal to the difference in energy of two electron states. The frequencies of the spectral lines produced by an excited atom give the energies of individual electron states. The frequencies of bright lines produced by excited atoms...

Light from a laser of wavelength 475 nm is incident upon an atom of hydrogen in...

Light from a laser of wavelength 475 nm is incident upon an atom of hydrogen in the first excited state. (a) What is the highest energy level (value of n) to which the hydrogen atom can be excited by the laser?   (b) What happens if the laser wavelength is 295 nm? Another way to get the energy levels of the Bohr atom is to assume that the stationary states are those for which the circumference of the orbit is an...

A hydrogen atom (Z=1) is in the third excited state. It makes a transition to a...

A hydrogen atom (Z=1) is in the third excited state. It makes a transition to a different state, and a photon is either emitted or absorbed. Answer the following conceptual questions: What is the quantum number of the third excited state? When an atom emits a photon, is the final quantum number of the atom greater than or less than the initial quantum number? When an atom absorbs a photon, is the final quantum number of the atom greater than...