Chemistry-Study and teaching; Spectroscopy, Nuclear magnetic resonance;
Experiment designed to introduce the fundamental principles and practice of magnetic resonance imaging (MRI), a form of NMR spectroscopy, by obtaining and examining a two-dimensional image of the stem or bud from a plant.
Chemistry-Study and teaching; Handouts; Solution (Chemistry)
Experiment in which the objective is to separate, by gas chromatographic techniques, a mixture of the four isomeric butyl alcohols and to determine the percentage of each an unknown mixture.
Chemistry-Study and teaching; Handouts; Chemistry, Physical and theoretical
The syllabus for Chemistry 156, Physical Chemistry in Molecular Biology. It provides details on the textbook, graded work and topics covered in the course.
Chemistry-Study and teaching; Solution (Chemistry); High performance liquid chromatography
Experiment with purpose of quantifying the caffeine content of a diet cola sample using high performance liquid chromatography. The separation of components in diet soft drinks is also involved.
Chemistry-Study and teaching; Syllabi and course descriptions; Chemistry, Physical and theoretical
The syllabus for Chemistry 158a, quantum mechanics and statistical mechanics. It provides details on the textbook, grading system and topics that will be covered.
Chemistry-Study and teaching; Chemical kinetics; Solution (Chemistry)
Experiment involving the study of the kinetics of the reaction between iron(III) and thiocyanate ions by the stopped-flow method, using the HiTech Stopped-Flow System and a digital oscilloscope.
Chemistry-Study and teaching; Spectroscopy, Nuclear magnetic resonance
Experiment previously used in the course and focused on selective irradiation and nuclear magnetic resonance (NMR), specifically involving homonuclear decoupling and the NOE (nuclear Overhauser enhancement) difference experiment.
