Chemistry-Study and teaching; Homework; Problem solving; Chemical equilibrium; Thermodynamics; Solution (Chemistry); Protein folding
Three multi-step problems dealing with chemical equilibrium. The questions were designed to illustrate a range of problems encountered in molecular biology and environmental science.
Chemistry-Study and teaching; Homework; Problem solving; Chemical equilibrium; Thermodynamics; Solution (Chemistry); Protein folding
Three multi-step problems dealing with chemical equilibrium. The questions were designed to illustrate a range of problems encountered in molecular biology and environmental science.
Chemistry-Study and teaching; Homework; Chemical kinetics; Chemical reactions
Exercise dealing with rate laws and mechanisms, using a special computer program to simulate an experiment. The exercise focuses on the experimental design and an analysis of the results.
Chemistry-Study and teaching; Homework; Problem solving; Molecules-Models; Chemical structure
Four multi-part problems dealing with molecular modeling. The exercise illustrates a range of modeling techniques used to determine the structure and function of macromolecules.
Chemistry-Study and teaching; Homework; Problem solving; Molecules-Models; Chemical structure
Five multi-part problems dealing with molecular modeling. This exercise illustrates a range of modeling techniques used to determine the structure and function of macromolecules.
Chemistry-Study and teaching; Homework; Chemical kinetics; Solid state physics; Crystals
Two questions, one asking for a predictions of crystal structures and the other a multichoice question. In the second, several mathematical notations were not compatible with the format and have been replaced by question marks in the original...
Chemistry-Study and teaching; Homework; Molecules-Models; Molecular structure; Spectroscopy, Nuclear magnetic resonance; Isomerism
Exercise in which the task is to use a molecular mechanics module to validate the claims of a study of the vibrational spectroscopy of N-acetyl-S-tryptophane methyl amide.
Chemistry-Study and teaching; Homework; Molecules-Models; Chemical bonds; Quantum chemistry; Dimers
Exercise in which the task is to perform calculations and alter structures relating to dimerization reactions and analyze the results of data similarities and differences.
Chemistry-Study and teaching; Homework; Molecules-Models; Molecular structure; Quantum chemistry; Infrared spectroscopy; Raman spectroscopy; Spectroscopy, Nuclear magnetic resonance
Exercise in which the task is to use ab initio quantum mechanics as a tool for resolving the ambiguities in the determination of the three-dimensional structure of beryllium borohydride.
