BIO 201 Cell Biology and Genetics (4 SH). This course serves as an introduction for students who have chosen biology or molecular biology as a major or minor. A combination of lectures, laboratory exercises, and assignments will introduce students to ways of observing and thinking about fundamental concepts and processes in the following areas of biology—biochemistry, cell structure and function, metabolism, genetics, and biotechnology. Various resources will be utilized to reinforce biological concepts, learn new laboratory skills, and improve critical thinking skills. Multiple sections offered every Fall Semester; one section offered every Spring Semester.
BIO 202 Evolution, Form and Function (4 SH). BIO 202 is the second in a series of three foundational courses in biology, designed to serve as an introduction for students who are taking a biology or molecular biology major or minor. Using explorative lectures coupled with investigative laboratories, BIO 202 will focus on evolution, the structure and physiology of plants and animals, and animal development. Concepts and practices of experimental design, data analysis, and interpretation of results will be reinforced and extended through integrated laboratory activities. Prerequisite: completion of BIO 201. Offered Spring Semester.
BIO 206 Biostatistics and Experimental Design (4 SH). An introductory course in experimental design and data analysis designed to encourage an understanding and appreciation of the role of experimentation, hypothesis testing, and data analysis in biology. The course will emphasize principles of experimental design, methods of data collection, exploratory data analysis, and the use of graphical and statistical tools commonly used by biologists to analyze data. Prerequisite: C- or better in BIO 201. Offered every semester.
BIO 301 Microbiology (4 SH). A study of the diversity in viruses, bacteria, fungi, and algae with an emphasis on the role of evolution in generating the diversity found in microorganisms. Consideration will be given to various energy metabolisms, genetic strategies, molecular systematics, and microbial adaptations that allow such diversity. Also considered will be the importance of microorganisms in medical, industrial, and environmental settings. A laboratory is included. Prerequisite: C- or better in BIO 201. Offered Spring Semester.
BIO 302 Cell and Molecular Biology (4 SH). A study of molecular structure and function in eukaryotic cells. Topics include organic molecules that contribute to cells the function of cells, membrane transport and signal transduction, gene expression, intracellular transport, structure and motility, energy conversions, tissue composition and cell division. Laboratory exercises will reinforce many of concepts covered in lecture. Required for the molecular biology major. Prerequisite: C- or better in BIO 201. Offered Fall Semester.
BIO 303 Molecular Genetics and Heredity (4 SH). This course serves as a broad introduction to the structure and function of nucleic acids, processes that regulate expression of genetic information, and processes that direct inheritance of genetic information. Prokaryotic and eukaryotic organism will serve as model systems for studying topics such as nucleic acid structure, function, replication, damage, repair, and control of gene expression. Additional topics include, but are not limited to, Mendelian genetics, epigenetics, population genetics, and the genetics of cancer. Weekly laboratory exercises are an essential component of this class and will be used to explore various molecular and biochemical techniques for isolating, replicating and analyzing nucleic acid sequence as well as studying modes of inheritance. Required for the molecular biology major. Prerequisite: C- or better in BIO 201. Offered every other Spring Semester.
BIO 360 Ecology (4 SH). A study of the structure of ecological populations, communities, and ecosystems, and the processes that affect them. Topics include population growth, regulation and dynamics, population interactions, food webs, species diversity, succession, biogeography, and energy flow and nutrient cycling. Laboratories stress experimental design and data analysis. Offered every Spring Semester. ( Also listed as ES 360 .)
BIO 361 Biological Diversity (4 SH). An in-depth, cross-sectional study of the diversity of eukaryotic organisms. Pertinent to this course is the evolutionary process which is centered on adaptation, diversity, natural selection and speciation. Topics include paleontology, life histories, survival strategies in feeding and reproduction, biogeography and patterns of extinction. The social, ethical and political consequences of human activities will also be addressed. This course assumes reasonable knowledge of all major taxa and schemes of taxonomy. The laboratory component will consist primarily of field work. Offered every other Fall Semester.
BIO 601 Biology Capstone (2 SH). The first semester of a two-coursesequence emphasizing biological discovery and the synthesis of knowledge and skills from previous courses in the major. Focus of the capstone is on application of the scientific method through the design, execution, analysis, and presentation of an experimental study. In the spring of their junior year, students produce a formal proposal for research to be completed in the second half of the capstone, BIO 602. Required of all biology and molecular biology majors. Prerequisites: Junior or senior status, and successful completion of BIO 201, 202, and 206, and above a 2.0 GPA within the major (all courses listed as BIO). Offered Spring Semester.
BIO 602 Biology Capstone (2 SH). The second semester of the capstone experience. Students in the class perform individual studies that were proposed in the prior semester, analyze their data, and present the results of their research in an appropriate forum. Required of all biology and molecular biology majors. Prerequisite: C- or better in BIO 601. Offered Fall Semester.
CHE 117 Principles of Chemistry (4 SH). Acourse emphasizing stoichiometry, chemical equilibria, acids and bases, chemical kinetics, thermodynamics, electrochemistry, nuclear phenomena, and interactions of science and society. In the laboratory program students will investigate chemical systems, analyze observations and data, devise explanations, and communicate results. Prerequisites: High school chemistry and an acceptable score on a placement test or completion of CHE 111 or ES 160 with a grade of C- or better. Offered Fall and Spring semesters.
CHE 180 Inorganic Chemistry (4 SH). A study of the energetics of the bonding and reactions of inorganic compounds. Emphasis is given to the periodicity of the chemical and physical properties of the elements. Major themes of the course include effective nuclear charge, lattice energy, charge density, acid/base theories, and the descriptive chemistry of all of the elements. The laboratory includes the investigation of the energetics of reactions, the synthesis and analysis of coordination compounds, qualitative chemistry, and the communication of results. Prerequisite: CHE 117 with a grade of C- or better. Offered Fall and Spring semesters.
CHE 261 Organic Chemistry I (4 SH). An overview of organic chemistry. Organic molecules are compared by their functional group, focusing on nomenclature, physical properties, and the major chemical reactions used in synthesis and identification. Emphasis is also given to the areas of acidity, basicity, stereochemistry, aromaticity, and spectroscopy. Laboratory activities involve techniques for determination of physical and chemical properties, and methods of purification. Prerequisite: CHE 117 with a grade of C- or better. Offered Fall and Spring semesters.
CHE 262 Organic Chemistry II (4 SH). A study of organic reactivity. This course details organic molecules by reactivity and emphasizes the differences between organic reactions. Specifically, organic reactions will be surveyed by type of reaction keying on the movement of electrons, molecular orbitals, and energetics. Spectroscopy is employed to monitor structural changes. Laboratory activities also probe the reactivity of molecules and explore the relationship between structure and reactivity. Prerequisite: CHE 261 with a grade of C- or better. Offered Spring Semester.
PHY 141 Foundations of Physics I (4 SH). The first semester of an introductory study of physics (mechanics, heat, electricity, magnetism, waves, light and modern physics) without calculus. Basic principles used in both semesters are introduced in the first semester. Some emphasis will be given to applications of physics to biological systems. A laboratory is included. Prerequisite: a good background in high school mathematics including algebra and trigonometry. Offered Fall Semester.
PHY 142 Foundations of Physics II (4 SH). The second semester of an introductory study of physics (mechanics, heat, electricity, magnetism, waves, light and modern physics) without calculus. Some emphasis will be given to applications of physics to biological systems. A laboratory is included. Prerequisite: PHY 141 or PHY 151. Offered Spring Semester.
PHY 151 Principles of Physics I (4 SH). The first semester of an introductory study of physics (mechanics, heat, electricity, magnetism, waves, light and modern physics). Basic principles used in both semesters are introduced in the first semester. Some basic concepts of calculus may be introduced as needed. A laboratory is included. Co-requisite: MTH 150 or higher. Offered Fall Semester.
PHY 152 Principles of Physics II (4 SH). The second semester of an introductory study of physics (mechanics, heat, electricity, magnetism, waves, light and modern physics). Calculus methods will be used. A laboratory is included. Prerequisite: PHY 151; Co-requisite: MTH 152 or higher. Offered Spring Semester.