B.S. Chemistry;
Biochemistry Track
A candidate for the
bachelor's degree must complete a total of at least 120 credits of college
work. A candidate for a B.S. in the chemistry, biochemistry track must fulfill the requirements
of the chemistry, biochemistry track
major and meet the general curricular requirements of the Camden College of
Arts and Sciences.
We encourage chemistry students to take 50:198:111 Programming
Fundamentals as one of their general education requirements.
To remain in good standing, students may only receive one D grade in the
chemistry/biochemistry lecture courses.
50:160:115 Chemical
Principles I (4 credits)
50:160:125 Chemical Principles Lab I (1 credit)
50:160:116 Chemical Principles II (4 credits)
50:160:126 Chemical Principles Lab II (1 credit)
50:160:335 Organic Chemistry I (4 credits)
50:160:339 Organic Chemistry Lab I (1 credit)
50:160:336 Organic Chemistry II (4 credits)
50:160:340 Organic Chemistry Lab II (1 credit)
50:160:326 Instrumental Analysis (3 credits)
50:160:330 Instrumental Analysis Lab (1 credit)
50:160:345 Physical Chemistry I (3 credits)
50:160:347 Physical Chemistry Lab I (1 credit)
50:160:346 Physical Chemistry II (3 credits)
50:160:348 Physical Chemistry Lab II (1 credit)
50:115:403 General Biochemistry I (3 credits)
50:115:407 General Biochemistry Lab I (1 credit)
50:115:404 General Biochemistry II (3 credit)
50:115:408 General Biochemistry Lab II (1 credit)
50:160:492 Competence in Chemistry (Exit exam) (1 credit)
50:160:495 Research in Chemistry (2 credit)
50:160:496 Research in Chemistry (2 credit)
Students must also choose:
6
credits from list below.
These must
be distinct courses from the requirements listed above.
50:160:400 level Any 400-level chemistry lecture or laboratory course
50:115:400 level Any 400-level biochemistry lecture or laboratory course
56:160:500 level Any 500-level graduate chemistry lecture or laboratory
course
56:115:500 level Any 500-level graduate biochemistry lecture or
laboratory course
56:121:500 level Any 500-level graduate Computational and Integrative
Biology lecture course
OR
at least 3-credits from the chemistry courses listed above and one of the
options selected from:
50:960:283 Introduction to Statistics (3 credits)
50:640:182 Elements of Probability (3 credits)
50:120:307 (with 308) Genetics (with Genetics Lab) (3+1 credits)
50:120:311 Human Genetics (3 credits)
50:120:338 (with 339) Immunology and Serology (with Immunology and
Serology Lab) (3+1 credits)
50:120:341 (with 342) General Physiology (with General Physiology Lab)
(3+1 credits)
50:120:334 (with 335) Cell Biology (with Cell Biology Lab) (3+1 credits)
50:120:480 Recombinant DNA Technology (3 credits)
50:120:444 Molecular Diagnostics (3 credits)
56:120:509 Cytogenetics (4 credits)
56:120:513 Population Genetics (3 credits)
56:121:500-level Any 500-level graduate Computational and
Integrative Biology lecture course
Additionally, students are required to complete the following courses from
other departments:
50:640:121 Unified Calculus I (4 credits)
50:640:122 Unified Calculus II (4 credits)
50:160:221 Unified Calculus
III (4 credits)
50:750:131 Elements of Physics I (3 credits)
50:750:133 Elements of Physics Lab I (1 credit)
50:750:132 Elements of Physics II (3 credits)
50:750:134 Elements of Physics Lab II (1 credit)
(Note: 50:750:131 and 132 is preferred, but may be substituted with 50:750:203 and 204.)
50:120:101 General Biology I (3 credits)
50:120:107 General Biology II (3 credits)
50:120:305 Molecular Biology (3 credits)
