Biotechnology
Biotechnology
A.A.S. Degree (G,S)
Biotechnology associate degree graduates are prepared for entry-level employment in a variety of laboratory settings. They analyze and interpret data using their knowledge of biological methods, laboratory techniques, and modern instrumentation. Students acquire a theoretical and practical education in various aspects of biology and chemistry that can be applied to diverse careers in the medical, environmental, industrial, and agricultural fields.
Program Graduate Competencies
The Program Graduate Competencies listed below identify the major learning goals related to your specific program of study and identify the knowledge and skills you will have when you graduate to be successful in your chosen field.
- Apply knowledge of biology and chemistry to solve problems in biotechnology.
- Integrate biological knowledge with the regulatory, ethical and business perspectives relevant to the biotechnology industry.
- Apply quantitative and computational skills and tools to analyze problems in biology and chemistry.
- Demonstrate good laboratory practices that are required by a person working as a biotechnology technician including laboratory safety and documentation.
- Demonstrate laboratory skills relevant to biotechnology including recombinant DNA techniques, PCR, DNA sequence analysis, and current analytical chemistry techniques.
- Work independently and collaboratively to create scientific oral presentations and written documents that are standard to the discipline.
Core Curriculum Competencies
The Core Curriculum Competencies listed below identify what you will be able to do as a graduate, regardless of your program of study. You will acquire these core competencies through general education courses and program-specific coursework. You will be expected to use relevant technology to achieve these outcomes:
- Apply clear and effective communication skills.
- Use critical thinking to solve problems.
- Collaborate to achieve a common goal.
- Demonstrate professional and ethical conduct.
- Use information literacy for effective vocational and/or academic research.
- Apply quantitative reasoning and/or scientific inquiry to solve practical problems.
Graduation Requirements
Core Courses
Select 2 course(s) from:
Program/Major Courses
Program/Major Support Courses
Select 1 course(s) from:
BIT 270 | Honors Biotechnlgy Internship | 2 |
CHM 111 | Intro to Organic & Biochemstry | 4 |
CHM 265 | Biochemistry | 4 |
DAT 101 | Intro to Data Analytics/Visual | 3 |
FSY 100 | Introduction to Food Science | 3 |
SCI 130 | Introduction to Research | 2 |
SCI 223 | Applied Ecology | 3 |
| | |
RES 150 | Independent Study & Research I | 1 |
| And | |
RES 200 | Independent Study & Research II | 1 |
| And | |
RES 250 | Independent Study & Research III | 1 |
Suggested Pathway to Graduation (Course Sequence Sheet)
Semester 1
Semester 2
Semester 3
Semester 4
Approved Electives
Select two (2) social science electives.
Select one (1) science elective.
BIT 270 | Honors Biotechnlgy Internship | 2 |
SCI 223 | Applied Ecology | 3 |
CHM 265 | Biochemistry | 4 |
FSY 100 | Introduction to Food Science | 3 |
DAT 101 | Intro to Data Analytics/Visual | 3 |
CHM 111 | Intro to Organic & Biochemstry | 4 |
SCI 130 | Introduction to Research | 2 |
| | |
RES 150 | Independent Study & Research I | 1 |
| And | |
RES 200 | Independent Study & Research II | 1 |
| And | |
RES 250 | Independent Study & Research III | 1 |
To complete program requirements, you must pass the above courses and earn at least 66 credits. The number of courses and credits required for graduation may be more depending on your need for developmental education courses and the elective choices you make (if electives are a part of the program). Some programs also have college-level courses that you must take if you do not score at a certain level on the College Placement Test. If this applies to your program, the courses are listed at the top of the sequence sheet before the first semester of the course list.
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