Chemistry and Biochemistry
 

Chemistry

Chemistry
BA
Hours57.5 Credit Hours
MAPMajor Academic Plan

Program Requirements

No more than 3 hours of D credit is allowed in major courses.
The Chemistry and Biochemistry Department requires the final 10 hours of required chemistry credit to be taken in residence at BYU for this degree program. These hours may also go toward BYU's 30-hour residency requirement for graduation.
Note: With departmental approval, Chem 105 may substitute for Chem 111, and Chem 106 for Chem 112.
requirement 4 Complete 3.0 hours from the following option(s)
After consulting with an advisor, complete 3 hours from the following:
Note 1: Chem 500 does not count toward filling this requirement.
Note 2: Elective courses must be different from required courses.
Note 3: With prior approval, certain 300-level and above courses in biology, engineering, physics, and statistics may be taken to satisfy this requirement.
Recommended Courses: Chem 195; Math 302, 303; PDBio 120; Phscs 140, 145.
Note: Supporting courses suggested by most medical and dental schools are found by visiting the Preprofessional Advisement Office. The more rigorous chemistry, mathematics, and physics courses required for the chemistry majors will satisfy the minimum requirements listed there. Elective courses in biochemistry and in biological science are especially pertinent to these preprofessional programs.
Program Outcomes: 

Chemistry Fundamentals

Program graduates will have demonstrated a mastery of core concepts and principles in the five chemistry sub-disciplines: analytical chemistry, biochemistry, inorganic chemistry, organic chemistry, and physical chemistry.

Laboratory Procedures and Practice

Program graduates will be able to perform basic laboratory procedures used in inorganic and small molecule analysis, organic synthesis, physical chemistry, and instrumental analysis. They will also be able carry out an independent research project in a laboratory class setting.

Research

Program graduates, who choose the research option, will be able to draw on classroom knowledge and laboratory classes to make an individual contribution in a research laboratory.

Effective Communication

Program graduates will be able to effectively communicate ideas and experimental results in a variety of formats including written and oral reports and technical graphics. They will also be able to search, read, and understand technical literature in the chemical sciences related to their area of interest.

Career Research and Preparation

Students approaching the end of their course of study will be able to make informed choices among post-graduate opportunities for work or further education.