1666 TEKS header image

Knowledge and Skills Statement

Science concepts. The student understands the development of atomic theory and applies it to real-world phenomena.

The specific equation students should be able to manipulate is Einstein’s equation for the energy of a photon:
 

Energy equals Planck’s constant multiplied by the frequency.
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where—
•    E is energy (in joules)
•    h is the Planck constant = 6.63 x 10-34 Joule-seconds (Js)
•    ƒ is frequency (in hertz)

Substituting for the frequency, you get:
 

Energy equals open parenthesis Planck’s constant multiplied by the speed of light close parenthesis divided by the wavelength.
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where—
•    E is photon energy
•    λ (lambda) is the photon's wavelength
•    c is the speed of light in a vacuum = 3 x 108 meters per second (m/s)
•    h is the Planck constant = 6.63 x 10-34 Joule-seconds (Js)

a theory of the nature of matter: all material substances are composed of minute particles or atoms of a comparatively small number of kinds and all the atoms of the same kind are uniform in size, weight, and other properties

the entire range of wavelengths or frequencies of electromagnetic radiation

the range of wavelengths emitted by an atom or compound stimulated by heat, light, or electric current; unique to each element

detectable events that are observed through the senses or technology and can be explained through scientific laws, ideas, principles, and theories

Research

Tchang-Brillet, W.-Ü Lydia, Ali Meftah, Djamel Deghiche, Jean-François Wyart, Christian Balança, Norbert Champion
and Christophe Blaess. "Laboratory Studies of Vacuum Ultra-Violet (VUV) Emission Spectra of Heavy Element Ions." International Astronomical Union.Proceedings of the International Astronomical Union 15, no. S357  (2019): 84-88. https://doi.org/10.1017/S1743921320000307

Summary Reliable spectroscopic data are needed for interpretation and modeling of observed astrophysical plasmas. For heavy element ions, which have complex spectra, experimental data are rather incomplete. We are carrying out laboratory studies of high-resolution VUV emission spectra of moderately charged ions of transition metals and rare earth elements. Examples of studies are described.

Research

Hassebi, Khalil, Karine Le Guen, Nicolas Rividi, Anne Verlaguet, and Philippe Jonnard. "Calculation of Emission Spectra of Lithium Compounds." X-Ray Spectrometry 52, no.6 (2023):330-335. https://doi.org/10.1002/xrs.3329

Summary We studied the electronic structure of lithium metal, lithium fluoride, and spodumene using density functional theory. We performed calculations of the total, local, and partial density of states and x‐ray emission spectra. We observed changes in the Li K spectra shape and energy position due to the chemical structure and composition modification. We also outline possible interferences between emission bands.