Honors students take three courses of thesis research, usually, but not always, with the double course load in the spring. The work consists of seminar programs, individual research projects, and preparation of a thesis on the research project.
Open to seniors. A double course. Fall semester. The Department.
How to handle overenrollment: null
Honors students take three courses of thesis research, usually, but not always, with the double course load in the spring (499D). The work consists of seminar programs, individual research projects, and preparation of a thesis on the research project.
Open to seniors. Fall semester. The Department.
How to handle overenrollment: null
Independent reading or research course. A half course. Does not normally count toward the major.
Fall and spring semesters. The Department.
How to handle overenrollment: null
Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Varies by course but includes independent research, independent writing, reading and evaluating primary literature, data analysis, and quantitative reasoning.
Independent reading or research course. A full course. Does not normally count toward the major.
Fall and spring semesters. The Department.
How to handle overenrollment: null
Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Varies by course but includes independent research, independent writing, reading and evaluating primary literature, data analysis, and quantitative reasoning.
Most animals on Earth obtain their energy from green plants, and, thus, it is not surprising that interactions between plants and animals have played a prominent role in our current understanding of how ecological processes such as predation, parasitism, and mutualism shape evolutionary patterns in plants and animals. The main topics that we will discuss in this seminar include pollination, fruit and seed dispersal, deception, herbivory, and phytocarnivory, considering both ecological and evolutionary perspectives.
Independent reading or research course. A half course. Does not normally count toward the major.
Fall and spring semesters. The Department.
How to handle overenrollment: null
Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Varies by course but includes independent research, independent writing, reading and evaluating primary literature, data analysis, and quantitative reasoning.
Independent reading or research course. A full course. Does not normally count toward the major.
Fall and spring semesters. The Department.
How to handle overenrollment: null
Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: Varies by course but includes independent research, independent writing, reading and evaluating primary literature, data analysis, and quantitative reasoning.
(Offered as BIOL 331, BCBP 331, and CHEM 331) Structure and function of biologically important molecules and their role(s) in life processes. Protein conformation, enzymatic mechanisms and selected metabolic pathways will be analyzed. Additional topics may include: nucleic acid conformation, DNA/protein interactions, signal transduction and transport phenomena. Four classroom hours and four hours of laboratory work per week. Offered jointly by the Departments of Biology and Chemistry. A student may not receive credit for both CHEM/BIOL 330 and BCBP/BIOL/CHEM 331.
(Offered as BIOL 331, BCBP 331, and CHEM 331) Structure and function of biologically important molecules and their role(s) in life processes. Protein conformation, enzymatic mechanisms and selected metabolic pathways will be analyzed. Additional topics may include: nucleic acid conformation, DNA/protein interactions, signal transduction and transport phenomena. Four classroom hours and four hours of laboratory work per week. Offered jointly by the Departments of Biology and Chemistry. A student may not receive credit for both CHEM/BIOL 330 and BCBP/BIOL/CHEM 331.
(Offered as BIOL 331, BCBP 331, and CHEM 331) Structure and function of biologically important molecules and their role(s) in life processes. Protein conformation, enzymatic mechanisms and selected metabolic pathways will be analyzed. Additional topics may include: nucleic acid conformation, DNA/protein interactions, signal transduction and transport phenomena. Four classroom hours and four hours of laboratory work per week. Offered jointly by the Departments of Biology and Chemistry. A student may not receive credit for both CHEM/BIOL 330 and BCBP/BIOL/CHEM 331.
