Rouse Company Foundation Student Services Building

BIOL-120 Biology for Engineers

This course is designed for engineering majors; it provides an introduction to cellular and molecular biology concepts from a quantitative perspective and modern experimental techniques that provide the foundation for modern biotechnology and bioengineering.

Credits

3

Prerequisite

ENES-100, MATH-143, or MATH-155

Corequisite

CHEM-101 or CHEM-135

Notes

Students who have successfully completed CHEM-101 or CHEM-135 in a previous semester should contact the Science, Engineering, and Technology division office to register.

Hours Weekly

3 hours weekly

Course Objectives

  1. 1. Communicate biological concepts and terminology related to cells and biomolecules using appropriate
    symbols, notation, and vocabulary.
  2. 2. Perform quantitative analysis of biological processes, using both analytical and computational
    methods.
  3. 3. Analyze and interpret data from biological systems and/or bioengineering experimentation.
  4. 4. Identify the structure and components of each cell type, and understand their functions.
  5. 5. Explain the chemistry, structure, and function of biomolecules.
  6. 6. Describe selected experimental techniques in biology and the underlying concepts.
  7. 7. Describe the mechanisms involved in molecular biological processes, including enzyme catalysis,
    metabolic pathways, gene expressions, signal transduction, etc.

Course Objectives

  1. 1. Communicate biological concepts and terminology related to cells and biomolecules using appropriate
    symbols, notation, and vocabulary.
  2. 2. Perform quantitative analysis of biological processes, using both analytical and computational
    methods.
  3. 3. Analyze and interpret data from biological systems and/or bioengineering experimentation.
  4. 4. Identify the structure and components of each cell type, and understand their functions.
  5. 5. Explain the chemistry, structure, and function of biomolecules.
  6. 6. Describe selected experimental techniques in biology and the underlying concepts.
  7. 7. Describe the mechanisms involved in molecular biological processes, including enzyme catalysis,
    metabolic pathways, gene expressions, signal transduction, etc.