MASTER OF ARTS IN SCIENCE EDUCATION (M.A.)
Director: Rita Hagevik, Biology
Program Description
The Master of Arts (M.A.) in
Science Education program has two concentrations. The Licensure Concentration
is designed to prepare currently licensed North Carolina Secondary School
Science Teachers for the N.C. MasterŐs/Advanced Competencies License. The program requires 36 s.h. and is a logical extension of two undergraduate science
teacher preparation programs currently offered at UNCP; one, the B.S. in
Science Education Program and, two, the Biology Education program. Students who completed the B.S. in
Science Education Program (science education majors) were eligible for the N.C.
Secondary Comprehensive Licensure and were licensed to teach any and all of the
science courses offered in N.C. Secondary Schools. Students who completed the Biology Education Program
(biology education majors) were eligible for the N.C. Secondary Biology
Licensure and were limited to teaching only biology.
The M.A. in Science Education
has been designed to provide an opportunity for science teachers who hold
either the comprehensive Science License or the Biology License to enter the
program and qualify for the N.C. MasterŐs/Advanced License.
While in the M.A. Program, the
former undergraduate science ed. major will be required to concentrate in one
of four areas of science (12 s.h. in Biology,
Chemistry, Physics, or Earth Science) and take nine additional s.h. in the three areas outside of the concentration (no
more than 3 s.h. from any one area). The former undergraduate biology ed.
major will concentrate in biology (15-18 s.h.) and
take an additional 3 s.h. to 6 s.h.
in an area or areas outside of biology.
Both groups will also take a required core of professional education
courses (9 s.h.) and six additional s.h. in science education.
The M.A. in science education
will build upon the instructional expertise and leadership qualities and skills
of an experienced licensed science teacher by requiring the following
qualifications prior to full admission into the program:
1. the applicant must hold either the N.C. Secondary Science Comprehensive License or the Secondary Biology License. Any out-of-state applicants will have to hold licenses deemed equivalent to the N.C. licenses.
2. the applicant must meet all of the graduate school general admission requirements.
The
Non-Licensure Concentration in Biology is designed for applicants who meet all
of the graduate school general admission requirements for the program with the
exception of the teaching licensure requirement. Upon admission to the program, students will be required to
sign a waiver of North Carolina Standard Professional I and M level licensure.
Program Goals
The major goals of the program
are designed to prepare a student to be able to:
1. Apply
the theoretical, philosophical, and research bases for educational practice in
secondary school classrooms to improve student learning.
2. Plan,
implement, and evaluate instruction that is philosophically consistent with the
Constructivist viewpoint.
3.
Incorporate knowledge of the nature of the learner, learning process,
variations in learning abilities and learning styles, and strategies for
evaluating learning in the secondary school classroom.
4. Plan,
implement, and evaluate instruction that is responsive to wide variations in
studentsŐ learning needs and learning styles.
5.
Understand and employ methods of research to examine and improve
instructional effectiveness and student achievement, particularly in the
Constructivist science classroom.
6.
Understand and link subject matter and studentsŐ developmental and
diverse needs in the context of secondary science classrooms.
7. Plan,
implement, and evaluate instruction that reflects intellectual rigor and depth
of knowledge in both science content and studentsŐ diverse learning needs.
8.
Demonstrate self-directed, self-reflective professional behavior and the
importance of providing leadership to colleagues and communities through
collaboration and participation in state and national science education
organizations.
|
Requirements
for a Master of Arts in Science Education |
Sem.
Hrs. |
|
Core:
Required courses EDN 5440 Survey of Educational Research EDN 5660 Applied Educational Research SCE 5600 Foundations of Science Education SCE 5700 Improving 9-12 Science Classroom
Instruction SCE 5800 Contemporary Issues in Science Education |
15 |
|
Content: Choose 21 credit hours from the
following: |
|
|
A concentration in one of these areas (12 hours) (note: Biology Education majors may choose 15-18 hours in Biology) Biology (required for undergraduate Biology Education majors) BIO 5100 Marine Biology BIO 5120 Topics in Ecology and Environmental Biology BIO 5150 Advanced Microbiology BIO 5200 Current Trends in Molecular and Cell Biology BIO 5250 Evolutionary Botany BIO 5350 Evolutionary Zoology BIOS 5xxx Special Topics in Biology Chemistry CHM 5200 Current Trends in Chemistry CHM 5480 Historical Perspectives on Chemistry CHM 5500 Spectroscopic Methods of Structure Determination CHM 5600 Instruments for Chemical Analysis CHMS 5xxx Special Topics in Chemistry Earth Science GLY 5010 Essentials of Earth Science GLY 5020 Essentials of Earth History GLY 5040 The Physiography and Ecology of the Atlantic Coastal Plain GLY 5410 Meteorology and Climatology GLYS 5xxx Special Topics in Geology GGYS 5xxx Special Topics in Geography Physics PHY 5200 Current Trends in Physics PHY 5480 Historical Perspectives of Physics PHY 5500 Classical Mechanics PHY 5600 Modern Physics PHYS 5xxx Special Topics in Physics |
12 |
|
Additional courses in the three areas
outside of the concentration Students must complete at least 3 semester hours in each of the three areas outside of their area of concentration |
9 |
|
Capstone Experience Each candidate must select and successfully
complete a Comprehensive Portfolio as the final product of the program and
successfully complete a Comprehensive Exit Oral Interview. |
|
|
|
Total:
36 |
NOTE: For EDN course descriptions, see listings in the M.A.Ed. program.
|
Requirements
for a Master of Arts in Science Education: Non-Licensure Concentration in Biology |
Sem. Hrs. |
|
Required
Science Education Courses Choose two of the following: SCE 5600 Foundations of Science Education SCE 5700 Improving 9-12
Science Classroom Instruction SCES 5xxx Special Topics in Science Education |
6 |
|
Required
Science Content Courses A minimum of 18 semester hours from the following: BIO 5100 Marine Biology BIO 5120 Topics in Ecology and Environmental Biology BIO 5150 Advanced Microbiology BIO 5200 Current Trends in Molecular and Cell Biology BIO 5250 Evolutionary Botany BIO 5350 Evolutionary Zoology BIOS 5xxx Special Topics in Biology |
18-21 |
|
Guided
Electives The program director must approve the elective selections based upon the studentŐs career goals and objectives. |
9-12 |
|
Capstone
Experience Each candidate must select and successfully complete a MasterŐs Research Project as the final product of the program and successfully complete a Comprehensive Exit Oral Interview. The Research Project must be approved by the candidateŐs graduate committee. |
|
|
|
Total: 36 |
COURSES
BIOLOGY DEPARTMENT (BIO)
BIO 5100. Marine Biology
A survey of the common organisms associated with tropical marine habitats. Emphasis will be on fish, invertebrates, algae, and birds. Coverage will include discussions of the coral reef and mangrove communities, ocean currents, and physical and geological factors. The course includes a one-week on-campus study followed by a one-week field, lab work at the Bermuda Biological Station for Research. There are additional costs involved in the trip.
BIO 5120. Topics in Ecology and Environmental Biology
Students will become cognizant of the principles of ecology and environmental biology through analysis of the interactions of organisms with each other and their interactions with the physical environment. The impact of humans and human systems on the natural world will be examined The interaction of ecological, geological and human processes is examined at regional, national, and global scales. Human management of fragmented landscapes will be discussed. Certain topics may be emphasized according to the expertise of the instructor.
BIO 5150. Advanced Microbiology
A survey of modern developments emphasizing the application of the knowledge of fundamental microbiology to address problems which exist in todayŐs environment. Topics will be discussed using case studies and problem -based learning and will include comparative genomics, emerging infectious diseases, antibiotic resistance, bioterrorism, microbial biotechnology and archaeal, viral, and prion biology.
BIO 5200. Current Trends in Molecular and Cellular Biology
This course is designed to provide the student with an awareness and appreciation of the rapidly changing trends in molecular and cellular biology. Discussion will include the medical potential and ethical issues raised by developments in these areas. Topics of discussion will include cloning, gene therapy, etc.
BIO 5250. Evolutionary Botany
A survey of all photosynthetic organisms with emphasis on phylogenetic relationships. Topics covered will include early evolution of life and the part photosynthesis played, three billion years of evolution restricted to the aquatic habitat, and evolution of terrestrial plants over the last half billion years.
BIO 5350. Evolutionary Zoology
A review of the basic workings of science, evolutionary concepts, and the animal kingdom. Topics will also include animal fossils, morphological & behavioral phylogeny, and human evolution.
BIOS 5xxx. Special Topics in Biology (1-4 hours)
The course content will vary from offering to offering. It will meet the special needs of individuals within the masterŐs program at UNCP and of students who seek credit by enrolling in special departmental offerings such as short courses, seminars, and special, intense summer experiences which focus on concepts within the discipline of biology. Offerings will be on an announced basis.
CHEMISTRY AND PHYSICS DEPARTMENT (CHM/PHY)
CHM 5200. Current Trends in Chemistry
A survey of current developments and trends in the various fields of chemistry. Credit, 3 semester hours. PREREQ: At least 24 credit hours of undergraduate coursework in chemistry or consent of the instructor and the department chair.
CHM 5480. Historical Perspectives of Chemistry
This course emphasizes the development of physical concepts in the discipline of chemistry from the earliest records through Aristotle, the alchemist and beyond, to the present. Topics include contributions of such scientists as Boyle, Lavoisier, Dalton, Mendeleev, Rutherford, and others. Discussions concerning their methods, motives, and the mental and social climate of their time are also included. Credit, 3 semester hours.
CHM 5500. Spectroscopic Methods of Structure Determination
The student will be introduced to the process by which the modern organic chemist determines the atom-to-atom structure of organic molecules. A review of empirical and molecular formulas, and what can be learned from them, is included. However, the major focus of the course will be teaching the student about the use of a number of instrumental techniques that is used in the elucidation of individual molecular structures. The specific techniques, and how they relate to molecular structure determination, include: UV-VIS (ultra violet-visible spectroscopy), IR (infrared spectroscopy), mass spectrometry (simulated data only), and various introductory and advanced NMR (nuclear magnetic resonance spectroscopy) techniques, including Proton and Carbon-13, COSY, DEPT, and HETCOR. Credit, 3 semester hours. PREREQ: At least 24 credit hours of undergraduate coursework in chemistry or consent of the instructor and the department chair.
CHM 5600. Instruments for Chemical Analysis
A course examining the theory and operation of instrumentation used for quantitative and qualitative analyses of matter. A combination of lecture and laboratory activities will develop both student knowledge of and skills in a variety of modern spectroscopic, electrochemical and chromatographic techniques. Credit, 3 semester hours. PREREQ: At least 24 credit hours of undergraduate coursework in chemistry or consent of the instructor and the department chair.
CHMS 5xxx. Special Topics in Chemistry
Course content will focus on topics in chemistry and will vary from offering to offering, with prerequisites appropriate to content. It will meet the special needs of individuals within the masterŐs program at UNCP and of students who seek credit by enrolling in special departmental offerings such as short courses, seminars, and special, intense summer experiences which focus on concepts within the discipline of chemistry. Credit, 3 semester hours.
PHY 5200. Current Trends in Physics
A survey of current development and trends in the various fields of physics. Credit, 3 semester hours. PREREQ: At least 24 credit hours of undergraduate coursework in physics or consent of the instructor and the department chair.
PHY 5480. Historical Perspectives of Physics
This course emphasizes the development of physical concepts in the discipline of physics from the earliest records through Aristotle, Einstein and beyond, to the present. Topics include contributions of such scientists as Copernicus, Galileo, Newton, Boyle, Rutherford, Millikan, Bohr, DeBroglie, Schroedinger, and others. Discussions concerning their methods, motives and the mental and social climate of their time are also included. Credit, 3 semester hours.
PHY 5500. Classical Mechanics
Newtonian mechanics, linear oscillations, non-linear oscillations, introduction to calculus of variation. HamiltonŐs principle and La GrangeŐs equations, central force motion, non-inertial frames, rigid body dynamics, vibrating systems. Credit, 3 semester hours. PREREQ: At least 24 credit hours of undergraduate coursework in physics or consent of the instructor and the department chair.
PHY 5600. Modern Physics
Special theory of relativity; introductory quantum mechanics with applications to microscopic systems; Fermi-Dirac, Bose-Einstein statistics; and electronic bands in solids. Credit, 3 semester hours. PREREQ: At least 24 credit hours of undergraduate coursework in physics or consent of the instructor and the department chair.
PHYS 5xxx. Special Topics in Physics
Course content will focus on topics in physics and will vary from offering to offering, with prerequisites appropriate to content. It will meet the special needs of individuals within the masterŐs program at UNCP and of students who seek credit by enrolling in special departmental offerings such as short courses, seminars, and special, intense summer experiences which focus on concepts within the discipline of physics. Credit, 3 semester hours.
GEOLOGY AND GEOGRAPHY DEPARTMENT (GLY, GGY)
GLY 5010. Essentials of Earth Science
Advanced study of topics in geology, meteorology, oceanography, and solar system astronomy.
GLY 5020. Essentials of Earth History
An Advanced study of earth history as recorded in the rock record. Topics include geologic time; evolution of the continents, oceans and atmosphere; fossils and the development of life through time; and the historical development of geologic concepts. Prerequisites: GLY 5010 or permission of the instructor.
GLY 5040. Physiography and Ecology of the Atlantic Coastal Plain
A systematic study of the physical and cultural setting of the Atlantic Coastal Plain. Topics include soils, water, vegetation, landforms (including extensive study of Carolina bays), weather and climate, population, settlement and resource use. The course includes weekend field trips.
GLY 5410. Meteorology and Climatology
Analysis and presentation of weather and climate
information. Emphasis on
explanatory methods in basic meteorology.
Graphical representation and modeling of weather elements, atmospheric
processes and climate regions.
GLYS 5xxx. Special Topics in Geology (1-4 hours)
Course content will change from offering to offering. It will meet the special needs of individuals within the masterŐs program at UNCP and of students who seek credit by enrolling in special departmental offerings such as short courses, seminars, and special intense summer experiences that focus on concepts within the discipline of geology. Offerings will be on an announced basis.
GGYS 5xxx: Special Topics in Geography
Course content will change from offering to offering. It will meet the special needs of individuals within the masterŐs program at UNCP and of students who seek credit by enrolling in special departmental offerings such as short courses, seminars, and special intense summer experiences that focus on concepts within the discipline of geography. Offerings will be on an announced basis.
SCIENCE EDUCATION (SCE)
SCE 5000. Teaching Science in Grades 6-12 (3 hours)
Purposes, methods, materials, and evaluation
procedures in the life and physical sciences; preparation of teaching plans and
materials appropriate for teaching science in the 6-12 classroom. Limited to MAT students only. Prerequisites: Formal admission to the MAT program;
EDN 5500.
SCE 5600. Foundations of Science Education
Historical, philosophical, sociological, political, and economic factors affecting science education in the schools of the United States will be analyzed. The goals of science education in the United States from the early nineteenth century to the present along with the implications of various learning theories and models for curriculum development will be examined. Current trends, issues, and problems in science education will also be evaluated.
SCE 5700. Improving 9-12 Science Classroom Instruction
This course will focus on the application of major principles of education and psychology for the improvement of science teaching in the secondary school science classroom. This will include clarification of goals and objectives of science teaching, instructional strategies, assessment, elements of a desirable classroom climate, and a critical analysis of research relevant to the teaching of all science disciplines.
SCE 5800. Contemporary Issues in Science Education
Students will continue in-depth studies into problems and emerging issues related to standards-based science education instruction and programs building upon the knowledge, skills, and dispositions addressed in both SCE 5600–Foundations of Science Education and SCE 5700–Improving 9-12 Science Classroom Instruction. In this culminating course, students will finalize their field-based experiences and/or leadership project and present the results at a professional meeting. Prerequisites: SCE 5600 and SCE 5700.
SCE 5810. Internship in 9-12 Science Education (3 hours)
Ten week, full-time internship experiences in an
off-campus public school setting appropriate for 9-12 Science licensure. Prerequisite: Approval of the Science Education Program Director.
SCES 5xxx. Special Topics in Science Education (1-4 hours)
The course content will vary from offering to offering, but it will be designed to encompass a variety of concepts and pedagogy within the area of science education. It will meet the special needs of individuals within the masterŐs program at UNCP, as well as students seeking credit in special offerings such as short courses, seminars, and special, intense summer experiences.