A PhD or Doctor of Philosophy is a postgraduate academic degree awarded by universities. Once one attains a PhD he or she may often be referred to as a doctor.
Natural Science is the field of science that studies the natural processes in the world. A PhD in Natural Science takes natural science studies to the next level, providing a deep understanding of these processes and how they affect life on the planet.
The United States of America is a large country in North America, often referred to as the "USA", the "US", the "United States", "America", or simply "the States". American colleges are funded by "tuition" charged to the student, which is often quite expensive, very commonly reaching into the tens of thousands of dollars per year.
New York is northeastern and 3rd most populous state of US. Statue of Liberty, Niagara Falls and General Shuylers House at Saratoga National Historic Park are among the most visited places by the university/college level students. Public university system of the state includes 68 Communities, technical, undergraduate, doctor-granting colleges. There are many private colleges in the province as well.
Request Information Doctoral Programs in Natural Sciences in New York in USA 2018
The PhD is awarded primarily for an original investigation which results in a significant advance in knowledge within an area of chemistry. A firm grasp of the fundamental principles, experimental techniques and current theories of chemistry is also required... [+]
Binghamton University's graduate program in chemistry offers the Master of Arts (MA), Master of Science (MS) and Doctor of Philosophy (PhD) degrees in chemistry for students who are innovative, competitive and highly motivated in the traditional areas of analytical, inorganic, organic and physical chemistry, as well as other relevant interdisciplinary subjects.
By the end of the first year, each student is paired with a faculty advisor based on research interests and availability. Our department advisors provide guidance for students throughout their academic career, from course selection to research development.
Our students are regularly recognized for exceptional academic achievement and research efforts through various awards and scholarships. Other funding opportunities such as teaching assistantships, research assistantships, and stipends are also available.... [-]
Mathematical modeling is the process of developing mathematical descriptions, or models, of real-world systems. These models can be linear or nonlinear, discrete or continuous, deterministic or stochastic, and static or dynamic, and they enable investigating, analyzing, and predicting the behavior of systems in a wide variety of fields. [+]
Please Note: This program is currently recruiting its first class, which will begin in fall 2017.
Mathematical modeling is the process of developing mathematical descriptions, or models, of real-world systems. These models can be linear or nonlinear, discrete or continuous, deterministic or stochastic, and static or dynamic, and they enable investigating, analyzing, and predicting the behavior of systems in a wide variety of fields. Every mathematical modeling enterprise has four aspects: the content of the application field, the mathematical formulation and analysis, the analytical and computational methods (which often involve high-performance computing), and the interpretation and analysis of the results. Through extensive research, graduates of this program will have the expertise not only to use the tools of mathematical modeling in various application settings but also to contribute in creative and innovative ways to solve complex interdisciplinary problems and to communicate effectively with domain experts in various fields.... [-]
The doctor of philosophy degree in imaging science signifies high achievement in scholarship and independent investigation in the diverse aspects of imaging science. [+]
The doctor of philosophy degree in imaging science signifies high achievement in scholarship and independent investigation in the diverse aspects of imaging science. Candidates for the doctoral degree must demonstrate proficiency by:Successfully completing coursework, including a core curriculum, as defined by the student’s plan of study; Passing a series of examinations; and Completing an acceptable dissertation under the supervision of the student’s research adviser and dissertation committee.
To be considered for admission to the Ph.D. program in imaging science, candidates must:Hold a bachelor of science degree in engineering, computer science, applied mathematics, or one of the natural sciences. (Because imaging science encompasses a wide variety of scientific disciplines, students with diverse backgrounds are accepted into the program. Exceptional students from other fields may be accepted.) Have completed courses in calculus, university physics (one year), modern physics, and a computer language. Submit scores from the Graduate Record Exam (GRE). Submit official transcripts from all previous coursework. Submit two letters of recommendation from individuals well-qualified to judge their abilities for graduate study. Submit an application for graduate study. ... [-]
Color science research at RIT encompasses such diverse fields as medical data visualization, computer graphics and animation, art conservation, spectral and spatial measurements of materials, color printing, digital photography, motion picture and television, and modeling of our perceptions for use in defining color quality. [+]
Color has been a topic of intense interest and inquiry for hundreds if not thousands of years. As a generalization, color science can be defined as the quantification of our perception of color. Its mastery requires an interdisciplinary educational approach encompassing physics, chemistry, physiology, statistics, computer science, and psychology. Color science is used in the design and control of most man-made colored materials including textiles, coatings, and polymers and to specify such diverse materials as soil and wine. It is used extensively in color reproduction including digital photography, desktop and projection display, and printing. As we begin the 21st century, color science is ubiquitous.... [-]
RIT’s doctorate program in astrophysical sciences and technology focuses on the underlying physics of phenomena beyond the earth, and in the development of the technologies, instruments, data analysis, and modeling techniques that will enable the next major strides in the field. [+]
PhD in Astrophysical Sciences and Technology
There has never been a more exciting time to study the universe beyond the confines of the earth. A new generation of advanced ground-based and space-borne telescopes and enormous increases in computing power are enabling a golden age of astrophysics. RIT’s doctorate program in astrophysical sciences and technology focuses on the underlying physics of phenomena beyond the earth, and in the development of the technologies, instruments, data analysis, and modeling techniques that will enable the next major strides in the field. The multidisciplinary emphasis of this program sets it apart from conventional astrophysics graduate programs at traditional research universities.... [-]
This multidisciplinary program builds on the fundamentals of traditional engineering and science combined with curriculum and research activities addressing the numerous technical challenges of micro- and nano-systems. [+]
Ph. D. in Microsystems Engineering
RIT offers a unique program leading to a doctorate degree in microsystems engineering. This multidisciplinary program builds on the fundamentals of traditional engineering and science combined with curriculum and research activities addressing the numerous technical challenges of micro- and nano-systems. These include the manipulation of electrical, photonic, optical, mechanical, chemical, and biological functionality to process, sense, and interface with the world at a nanometer scale. The goal of the program is to provide a foundation to explore future technology through research in nano-engineering, design methods, and technologies and their integration into micro- and nano-scaled systems. Some of the program’s areas of exploration include the following:... [-]
The program provides you with a sound background in classical and modern physics, with guidance and experience in research. [+]
The program provides you with a sound background in classical and modern physics, with guidance and experience in research.
The Department of Physics offers a graduate program leading to a Master of Science in Physics. We offer close personal interaction between you and the faculty, giving individual attention to your needs and interests as you move through the program.
Active research interests in the department include chemical physics, energy storage and conversion, nonlinear phenomena, condensed matter physics, transport properties, effects of disorder, statistical mechanics, phase transitions, surface and interface physics, optics, biophysics, self-assembly of nanomaterials, unconventional computing and (bio)sensing.... [-]
These programs are designed for you to increase your fundamental knowledge and to give you guidance and experience in applied research. [+]
These programs are designed for you to increase your fundamental knowledge and to give you guidance and experience in applied research.
Mathematics means a lot more than just numbers. Math is concepts, creativity, invention and solutions. It is the heart of applied science. Clarkson University offers graduate programs leading to an MS degree in mathematics. The emphasis of our degree program and our research activities is applied mathematics: dynamical systems, optimization, numerical analysis and computational methods, probability and statistics.
As a graduate student, you pursue these objectives by taking advanced courses, participating in seminars and carrying out and reporting on a research project. The department provides the advantage of a close personal association between you and the faculty, giving you individualized attention regarding your needs and interests.... [-]
Our groundbreaking chemistry researchers are recognized as pioneers in colloid and fine particle research and discovery. [+]
Our groundbreaking chemistry researchers are recognized as pioneers in colloid and fine particle research and discovery.
Many of our faculty enjoy an outstanding international reputation for their research accomplishments. Their diverse, yet complementary research interests provide you with a broad variety of research topics from which to choose, including bionanotechnology, smart surfaces and interfaces, functional and stimuli-responsive materials, nanotherapeutics, diagnostics and biosensors.
The Department of Chemistry & Biomolecular Science at Clarkson University has a long-standing reputation for providing a first-class education in chemistry, material and biomolecular sciences, with core expertise in advanced materials, colloidal science, surfaces and interfaces, nanoparticle research, polymer science, biomaterials, bionanotechnology, bioelectronics and biosensors. Faculty members are associated with the New York State-funded Center for Advanced Materials Processing and several other interdisciplinary programs on campus. Strengths of our program include a highly collaborative research environment and established connections with chemical and advanced materials industries. These relationships can provide opportunities for technology transfer and potential employment for you. Departmental research is supported by federal grants, primarily from the National Science Foundation as well as New York State and private industry funding.... [-]