DegreeBachelor of Science with a major in Laboratory Science
Chemistry and physics are fundamental sciences that touch every aspect of our lives and the world around us. Chemistry is the study of matter: its chemical and physical properties, the chemical and physical changes it undergoes, and the energy changes that accompany those processes. Chemistry often is referred to as the central science; it rests upon the foundation of mathematics and physics and in turn is the essential basis for the life sciences such as biology and medicine. Chemistry is largely an experimental science, and has applications in such diverse areas of research as the development of new drugs, the search for solutions to problems of environmental pollution, and the derivation of alternative energy sources. Much cutting-edge research in biology and medicine is being carried out at the level of atoms and molecules, the particles of matter upon which the study of chemistry is based.
Physics, too, is the study of matter and energy, viewed from a different perspective. To understand living systems and the universe in which we live requires an understanding of the chemical and physical principles that operate within them.
In addition to offering majors in chemistry, chemistry/secondary education, biochemistry and laboratory science, and minors in chemistry and biophysics, the department fills a significant role for students in other programs through its introductory courses in chemistry and physics. Because of the fundamental roles of chemistry and physics in the biological, environmental, and health sciences, students in these programs benefit from the conceptual, quantitative, problem-solving, and communication skills stressed in the introductory courses, which form the foundation for later courses in the students' majors.
The laboratory science (LS) major is designed to prepare graduates for work in a variety of modern laboratory settings, ranging from biotechnology labs to quality control labs to academic, medical, or industrial research labs. The program includes a broad spectrum of laboratory courses in chemistry, biochemistry, and biology, so that the graduate will have as comprehensive a repertoire of lab skills as possible. With careful selection of electives, LS graduates wishing to become medical technologists will be well-prepared for acceptance into accredited hospital internship programs in medical technology. Recent LS graduates have been successful in pursuing careers in industry and post-baccalaureate graduate studies.
|CAS Core Requirements||42-43|
|Program Required Courses||45-46|
|BIO 105/106 - Biology I and II (4 cr included in core requirements)||4|
|BIO 200 - Genetics or BIO 207 Organismal Genetics||5-4|
|BIO 232 - Microbiology||4|
|BIO 260 - Immunology||4|
|BIO 370 - Cell and Molecular Biology||3|
|CHE 110 - General Chemistry I||4|
|CHE 111 - General Chemistry II||4|
|CHE 210 - Organic Chemistry I||5|
|CHE 307 - Quantitative Analysis||5|
|CHE 309 - Intro to Instrumental Analysis||4|
|CHE 310 - Fundamentals of Biochemistry||4|
|MAT 190 - Calculus I (included in core requirements)||4|
|PHY 110 - General Physics I||4|
|Flexible Program Required Courses
*Choose a minimum of three courses selected from the following
|BIO 203 - Histology||4|
|BIO 204 - Parasitology||4|
|BIO 245 - Gen Prin of Human Anat, Phys and Path I||4|
|BIO 345 - Gen Prin of Human Anat, Phys and Path II||5|
|CHE 211 - Organic Chemistry II||5|
|PHY 111 - General Physics II||4|
|Minimum Required Total Credits||99|
|Recommended Elective Courses|
|BIO 330 - Comparative Vertebrate Anatomy (if BIO 245/345 not selected)||4|
|MAT 150 - Statistics for Life Sciences||3|
|MAT 195 - Calculus II||4|
|Open Elective Credits (as needed to reach 120 credits)||variable|
|Minimum Required Total Credits||120|
Academic and Technical Standards
A minimum grade of C- must be achieved in all required science and mathematics courses used toward graduation in laboratory science, and a 2.00 cumulative grade-point average in the sciences is a requirement for graduation.
- Students will be able to describe and apply advanced information and concepts relevant to general laboratory science.
- Students will be able to demonstrate proficiency in safe laboratory practices and use of instrumentation standard to the discipline.
- Students will be able to clearly communicate information in both oral and written forms relevant to general laboratory science.
- Students will be able to work collaboratively in various team settings.
- Students will be able to compete successfully for placement in graduate programs or employment relevant to the field of study.
We offer qualified students the option of participating in our Honors Program and graduating with Honors. This includes significant research, scholarship or creative activity under the direction of a faculty member.
Tuition and Fees
Tuition and fees for subsequent years may vary. Other expenses include books and housing. For more information regarding tuition and fees, please consult the Financial Information section of this catalog.
Notice and Responsibilities Regarding this Catalog
This Catalog documents the academic programs, policies, and activities of the University of New England for the 2015-2016 academic year. The information contained herein is accurate as of date of publication April 30, 2015. *Addendum published January 29, 2016.
The University of New England reserves the right in its sole judgment to make changes of any nature in its programs, calendar, or academic schedule whenever it is deemed necessary or desirable, including changes in course content, the rescheduling of classes with or without extending the academic term, canceling of scheduled classes or other academic activities, in any such case giving such notice thereof as is reasonably practicable under the circumstances.
While each student may work closely with an academic advisor, he or she must retain individual responsibility for meeting requirements in this catalog and for being aware of any changes in provisions or requirements.