Modern chemistry rarely answers questions by hand anymore — you answer them by knowing which instrument speaks the right physical language for your sample, and how to trust the signal it gives back. This graduate course walks through that toolkit from the electronics up: starting with op-amps and noise so you understand what the readout actually is, then through atomic and molecular spectroscopies (AAS, ICP-MS, UV-Vis, IR, Raman, NMR), diffraction, mass spec, and hyphenated techniques. Expect problem sets, a project, and two midterms built around interpreting real spectra and choosing the right method for a given analyte. It's the methods backbone for anyone heading into analytical, materials, or bio-related research where "what is in this sample, and how much" is the central question.
→ STARS müfredatı (resmi syllabus)
İlk dosyayı sen atarsan — not, slayt, geçmiş sınav, çözüm, cheat-sheet, ne varsa — defter ekibi öğrenci paylaşımlarından bu dersin notlarını yazar. Drive linki / PDF / ZIP, hepsi olur.
Course Learning Outcomes: Course Learning Outcome Assessment Able to apply knowledge of chemical spectroscopy and spectrometry to analyses of atomic and molecular species MT-1 Prj Able to differentiate between photon induced and particle induced excitations, including ionization, for detection of chemical species MT-2 HW Able to apply knowledge of chemical spectroscopy and spectrometry to analyses of complex materials Fin