Rutgers, The State University of New Jersey
Graduate School New Brunswick
 
About the University
Graduate Study at the University
Other Graduate Study at the University
Admission
Degree Programs Available
Financial Aid
Student Services
Academic Policies and Procedures
Degree Requirements
Programs, Faculty, and Courses
Course Information
Actuarial Sciences
African Studies 016
Analytics: Discovery Informatics and Data Sciences
Anthropology 070
Applied Computing
Art History 082
Arts, Visual and Theater
Asian Studies 098
Atmospheric Science 107
Biochemistry 115
Bioenvironmental Engineering 117
Biomedical Engineering 125
Biotechnology 126
Biotechnology and Genomics
Business and Science 137
Cell and Developmental Biology 148
Cellular and Molecular Pharmacology
Chemical and Biochemical Engineering 155
Chemistry and Chemical Biology 160
Chemistry
Chinese 165
Cinema Studies 175
Civil and Environmental Engineering 180
Classics 190
Cognitive Science 185
College Teaching 186
College and University Leadership 187
Communication, Information and Library Studies 194
Communication Studies
Comparative Literature 195
Computational and Data-Enabled Science and Engineering 199
Computational Biology and Molecular Biophysics 118
Computer Science 198
Cultural Heritage and Preservation Studies (CHAPS)
Curatorial Studies
Drug Discovery and Development
East Asian Languages and Cultures 217
Ecology and Evolution 215
Economics 220
Education 300
Educational Psychology; Educational Theory, Policy, and Administration; Learning and Teaching
Electrical and Computer Engineering 332
Endocrinology and Animal Biosciences 340
Energy
Engineering Management
English, Literatures in (English 350, Composition Studies 352)
English as a Second Language 356, American Language Studies 357
Entomology 370
Environmental Change, Human Dimensions of 378
Environmental Sciences 375
Financial Statistics and Risk Management
Food and Business Economics 395
Food Science 400
French 420
Geography 450
Geological Sciences 460
Geospatial Information Science 455
Geospatial Information Systems
German 470
Graduate Student Professional Development 486
Historic Preservation
History 510
Horticulture and Turfgrass Science
Human Resource Management
Industrial and Systems Engineering 540
Industrial Mathematics
Industrial Relations and Human Resources 545
Information Technology
Interdisciplinary Ph.D. Program 554
International Agriculture
Italian 560
Jewish Studies 563
Kinesiology and Applied Physiology 572
Labor and Employment Relations
Landscape Architecture 550
Latin American Studies
Library Studies
Linguistics 615
Literature and Language 617
Literatures in English
Management
Materials Science and Engineering 635
Mathematical Finance 643
Mathematics 640, 642, 644
Mechanical and Aerospace Engineering 650
Medicinal Chemistry 663
Medieval Studies 667
Meteorology
Microbial Biology 682
Microbiology and Molecular Genetics 681
Molecular Biophysics 696
Core Curriculum Program
Graduate Courses
Molecular Biosciences 695
Music 700
Music
Neuroscience 710
Nutritional Sciences 709
Oceanography 712
Operations Research 711
Perceptual Science
Personal Care Science
Pharmaceutical Engineering
Pharmaceutical Science 720
Pharmaceuticals and Clinical Trials Management 725
Pharmacology, Cellular and Molecular 718
Pharmacy
Philosophy 730
Physics and Astronomy 750
Physiology and Integrative Biology 761
Planning and Public Policy 762
Plant Biology 765
Political Science 790
Psychology 830
Psychology, Applied and Professional
Public Health 832
Public Policy
Quality and Reliability Engineering
Religious Studies 840
Quaternary Studies 841
Russian, Central and East European Studies 859
Science and Technology Management 885
Social Networking and Media
Social Work 910
Social Work: Administration, Policy and Planning, and Direct Practice
Sociology 920
Spanish 940
Financial Statistics and Risk Management 958
Statistics and Biostatistics 960
Sustainability
Theater Arts
Toxicology 963
Urban Environmental Analysis and Management
Urban Planning, City and Regional
User Experience Design (UXD)
Visual Arts
Women's and Gender Studies 988
Research Centers and Institutes
Administration
Divisions of the University
Camden Newark New Brunswick/Piscataway
Catalogs
  Graduate School–New Brunswick 2014–2016 Programs, Faculty, and Courses Molecular Biophysics 696 Core Curriculum Program  

Core Curriculum Program



The aim of the molecular biophysics core curriculum is to select and educate researchers who are capable of applying the tools and concepts of the physical sciences to the solution of significant biological problems. Many important contributions in molecular biophysics are a synthesis of biology, chemistry, mathematics, and physics not found in a single traditional discipline. The molecular biophysics core curriculum therefore goes beyond the curricula of individual academic disciplines and sets its own guidelines for courses and the character of dissertation research. The requirements are, nevertheless, consistent with those of existing graduate programs at Rutgers so that the students can earn a Ph.D. in one of the major academic disciplines with a concentration in molecular biophysics.

Supplemental work for molecular biophysics is designed to enable the students to do the following: (1) receive broad exposure to the principles and methods of molecular biophysics along with rigorous training in the relevant physical science, (2) combine course requirements with those in existing predoctoral programs, (3) choose from a wide range of courses in molecular biophysics not specifically included in the requirements, and (4) master a curriculum that meets his or her individual needs.

Because students in the program come from a variety of backgrounds and have different interests, the course structure is flexible. Formal course requirements are limited to a core program in biophysical chemistry and a choice of two advanced courses.

All students are expected to complete a sequence of laboratory rotations and to register every semester for the core curriculum seminar. The laboratory rotation is intended to provide students with broad exposure to the methods of molecular biophysics and to assist them in choosing dissertation advisers. The aim of the seminar course is to provide in-depth exposure to new developments in the field as well as to unify the molecular biophysics students and faculty. Students also work in depth with a faculty mentor on a dissertation problem. The emphasis of the research training is on the structures, interactions, and physicochemical properties of biological macromolecules.

The program additionally offers wide latitude in the choice of advanced electives, allowing students and faculty to design curricula to match individual needs. Students in the program are expected to have a common minimal background in the physical and biological sciences. Courses are taken to fill gaps in background as well as to provide intensive training in the particular area in which the student plans to carry out research. The departmental courses offered at Rutgers provide a rich resource for this purpose. Most students are expected to take four to five years to complete degree requirements.

 
For additional information, contact RU-info at 732-445-info (4636) or colonel.henry@rutgers.edu.
Comments and corrections to: Campus Information Services.

© 2014 Rutgers, The State University of New Jersey. All rights reserved.