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Undergraduate Catalog

2013 - 2014

BS in Microbiology
(62–67 hours*)



This is the preferred degree for microbiology majors who desire an advanced degree (master's or doctorate) in microbiology.

Program Requirements    |    View MAP   |    View Program Outcomes

  1. Complete one of the following courses:

  2. Complete the following biology core courses:
  3. Complete four courses from the following (at least two of which must have a lab component):
  4. Complete the following chemistry courses:
      CHEM 105 : General College Chemistry. (4:5:0)(Credit Hours:Lecture Hours:Lab Hours)
      CHEM 105 : General College Chemistry. (4:5:0)(Credit Hours:Lecture Hours:Lab Hours)
      WHEN TAUGHT:Fall; Winter; Spring; Summer
      PREREQUISITE: Math 110 (or equivalent) or concurrent enrollment.
      DESCRIPTION: Atomic and molecular structure including bonding and periodic properties of the elements; reaction energetics, electrochemistry, acids and bases, inorganic and organic chemistry.
      NOTE: Primarily for students in engineering and biological sciences. Three lectures and two recitation sections per week.

      Course Outcomes


      CHEM 106 : General College Chemistry. (3:4:0)(Credit Hours:Lecture Hours:Lab Hours)
      CHEM 106 : General College Chemistry. (3:4:0)(Credit Hours:Lecture Hours:Lab Hours)
      WHEN TAUGHT:Fall; Winter; Summer
      PREREQUISITE: CHEM 105; or CHEM 111
      DESCRIPTION: Continuation of Chem 105 but covering most of the topics in a more quantitative way. Detailed treatment of thermodynamics and equilibria.
      NOTE: Three lectures and one recitation section per week.

      Course Outcomes


      CHEM 107 : General College Chemistry Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
      CHEM 107 : General College Chemistry Laboratory. (1:0:3)(Credit Hours:Lecture Hours:Lab Hours)
      WHEN TAUGHT:Fall; Winter; Spring; Summer
      PREREQUISITE: Chem 106 or Chem 112 or concurrent enrollment.
      DESCRIPTION: Chemical properties, chemical reactions, collection and interpretation of data, preparation of reports.
      NOTE: Required for most students needing one year of general chemistry.

      Course Outcomes


      CHEM 351 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
      CHEM 351 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
      WHEN TAUGHT:Fall; Winter; Spring
      PREREQUISITE: CHEM 105; or CHEM 111
      DESCRIPTION: Chemical bonds and molecular structure, conformation and configuration, functional classes, reactions and mechanisms, syntheses.
      NOTE: Primarily for majors in chemical engineering and the biological sciences.

      Course Outcomes


      CHEM 352 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
      CHEM 352 : Organic Chemistry. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
      WHEN TAUGHT:Fall; Winter; Spring; Summer
      PREREQUISITE: CHEM 351; or CHEM 351M
      DESCRIPTION: Continuation of Chem 351.

      Course Outcomes


      CHEM 353 : Organic Chemistry Laboratory--Nonmajors. (1-2:0:6)(Credit Hours:Lecture Hours:Lab Hours)
      CHEM 353 : Organic Chemistry Laboratory--Nonmajors. (1-2:0:6)(Credit Hours:Lecture Hours:Lab Hours)
      WHEN TAUGHT:Fall; Winter; Spring; Summer
      PREREQUISITE: Chem 352 or concurrent enrollment (preferred).
      DESCRIPTION: Physical and chemical properties, isolation and purification, characterization, syntheses.
      NOTE: For predentistry, premedicine, and other majors who do not intend to take Chem 455.

      Course Outcomes


      CHEM 481 : Biochemistry. (3:3:0)(Credit Hours:Lecture Hours:Lab Hours)
      WHEN TAUGHT:Fall; Winter; Spring
      PREREQUISITE: CHEM 352M & PDBIO 120; or CHEM 352 & PDBIO 120
      DESCRIPTION: First-semester biochemistry. Molecular components of cells, chemical structure and function, enzymes, metabolic transformations, photosynthesis.
      NOTE: For chemistry majors and students in biological sciences who contemplate pursuing advanced degrees, including medicine. (For prerequisite, Bio 130 may be used in place of PDBio 120.)

      Course Outcomes


  5. Complete the following:
  6. Complete one of the following courses:
      MATH 112 : Calculus 1. (4:5:0)(Credit Hours:Lecture Hours:Lab Hours)
      OFFERED: Honors also.
      WHEN TAUGHT:Fall; Winter; Spring; Summer
      DESCRIPTION: Differential and integral calculus: limits; continuity; the derivative and applications; extrema; the definite integral; fundamental theorem of calculus; L'Hopital's rule.

      Course Outcomes
               
      : Honors Calculus 1.
      Course Outcomes



      *MATH 119 : Introduction to Calculus. (4:4:1)(Credit Hours:Lecture Hours:Lab Hours)
      *MATH 119 : Introduction to Calculus. (4:4:1)(Credit Hours:Lecture Hours:Lab Hours)
      OFFERED: Independent Study only.
      WHEN TAUGHT:Fall; Winter; Spring; Summer
      PREREQUISITE: Math 110 and Math 111; or equivalent.
      DESCRIPTION: Introduction to plane analytic geometry and calculus.

      Course Outcomes


      STAT 121 : Principles of Statistics. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
      STAT 121 : Principles of Statistics. (3:3:1)(Credit Hours:Lecture Hours:Lab Hours)
      OFFERED: Independent Study also; Honors also.
      WHEN TAUGHT:Fall; Winter; Spring; Summer
      RECOMMENDED: MATH 110 or equivalent.
      DESCRIPTION:  Stemplots, boxplots, histograms, scatterplots; central tendency, variability; confidence intervals and hypothesis testing involving one and two means and proportions; contingency tables, simple linear regression.

      Course Outcomes
               
      : Honors Principles of Statistics.
      Course Outcomes




      *Offered through BYU Independent Study.
  7. Complete at least 10 hours from the following:
  8. Pass the Biology Major Field Exam.
  9. Complete an exit interview.

Recommended Courses

*Hours include courses that may fulfill university core requirements.



Show all Microbiology and Molecular Biology (MMBIO) Courses