This course provides students with an understanding of basic statistical concepts critical to the proper use and understanding of statistics in ecology and conservation science and prepares students for subsequent ECO courses in ecological modeling.

Provides graduate students with a broad sampling of new and cutting-edge research related to environmental conservation to help foster critical thinking and provide a more expansive view of natural resources research. Seminars will be given by departmental faculty and faculty from other departments, both on campus and from other institutions. The seminars will be designed for both students who plan a research career and those who plan a more applied path.

Introduction to the research process in the natural resources sciences. Focus on research philosophy, concepts, and design, progressing from development of hypotheses, questions, and proposals, to grants and budgeting, and delivery of such research products as reports, publications, and presentations.

Description not available at this time

For second year students. Does not satisfy the B.S. independent research project requirement. Experimental or theoretical study that may involve lab or library work or a combination. Work supervised by faculty sponsor who determines direction of project, nature of reports required, and grade and credit awarded. 3-4 hrs lab work per week per 1 unit is expected. This course cannot substitute for CHEM 388 or CHEM 499Y/T.

Experimental organic chemistry with emphasis on underlying physical principles. Separation and purification, synthesis, analysis, and identification of organic compounds, including spectroscopy. Microscale work predominates. Emphasis on safe laboratory practices and proper disposal of wastes. Prerequisite or co-requisite: CHEM 262 or 266.

Satisfies Junior Year Writing requirement. Develops written and oral communication skills. Emphasizes writing as a process. Covers letters, summaries, critiques, reports, articles, reviews, resumes, and proposals.

Applications of analytical techniques to actual problems in industrial regulatory, and instrumentation development laboratory settings. The place of analytical chemistry in related disciplines. The analytical chemical academic-industrial interface. Visiting industrial seminar speakers. Format flexible. Prerequisite: CHEM 513 or 515.

Together with CHEM 262 satisfied requirements for medical school admissions. Acceptable, with approval of the Undergraduate Chemistry Adviser, though not recommended, for chemistry majors. Brief review of basic principles of chemical bonding, electronic theory, and acid-base reactions. Introduction to principles of stereochemistry and organic spectroscopy. Discussions of the most common types of reactions of organic molecules and their mechanisms.