PhD in Michigan USA

Top PhD Programs in Michigan USA 2017

PhD

A PhD, also known as a Doctor of Philosophy degree, is a doctorate awarded by a university to the academic who has met all necessary qualifications and can now be considered a doctor in his or her academic field.

One of the Post Graduate academic degrees that are awarded by the Universities is the Doctor of Philosophy; abbreviated as PhD. Depending on the time periods for entry-level degrees and other factors, PhD programs vary from one country to another as well as from institution to the other. With the attainment of the degree, you earn the academic title of a Doctor. The courses are available to all students who meet minimum requirements worldwide.

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.

Michigan is a Midwestern state of US. The name is derived from a French word meaning large water or large lake. Tourism is one of the major industries of the state. There are numerous universities and private colleges spread throughout the country. More than 10 of the universities are classified and research universities.

View Doctorate Degrees in Michigan in USA 2017

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PhD in Earth and Ecosystem Science

Central Michigan University
Campus Full time September 2017 USA Mount Pleasant

The Earth and Ecosystem Science Ben Heumann and EES Student in the field(EES) doctoral program at Central Michigan University is a newly formed program providing advanced scientific training in interdisciplinary sciences. EES at CMU employs a systems-level approach to evaluate the physical, chemical, geological and biological structure and function of various natural environments. [+]

PhDs 2017 in Michigan USA. The Earth and Ecosystem Science Ben Heumann and EES Student in the field(EES) doctoral program at Central Michigan University is a newly formed program providing advanced scientific training in interdisciplinary sciences. EES at CMU employs a systems-level approach to evaluate the physical, chemical, geological and biological structure and function of various natural environments. In this research-intensive degree program, students develop projects that investigate patterns and processes that regulate environmental variations across a range of temporal and spatial scales. Through core courses and individual research projects, EES students study the dynamics of aquatic and terrestrial systems (modern and ancient, pristine and polluted) in diverse geographic regions, with a particular focus on the interrelations between multiple factors that govern Earth and ecosystem processes. As the EES program is inherently multidisciplinary, students with backgrounds in biology, chemistry, geology, geography, physics and mathematics are encouraged to apply. Depending on the major advisor's research focus, projects in EES may explore patterns (biodiversity, reaction, physical architecture), processes (fate, transport, efficiency), regulation (complexity, stability, feedback) and management (sustainability, global change) of ecosystems and key ecosystem components. The EES Ph.D. is designed as a Students taking water samples in Saginaw Bayresearch-intensive program, with a suite of interdisciplinary core courses specific to this program. Electives and courses on specialized topics are available through Biology, Chemistry, Geography and other academic departments. Successful completion of the Ph.D. requires a minimum 60 hours of graduate work beyond the bachelor's degree. After admission to the program, you will meet with your advisor to map out a plan of study, complete a transfer of credits for relevant graduate coursework, and evaluate your academic strengths to determine if additional coursework and/or professional activities are needed. Students will take both required and elective courses to augment research training. The core courses (EES 701, 702 and 703) are designed to provide students of varied backgrounds with universal skill sets and a common understanding of system-level analysis needed to conduct primary research in complex environmental systems. Each student will also complete elective course work as recommended by the faculty advisor and dissertation committee. Typically, students entering with a bachelor's degree will take 12-30 hours of disciplinary elective courses and 12-30 hours of special topics and directed research credits (and students entering with a relevant master's degree will take 3-9 hours of disciplinary elective courses and 3-9 hours of special topics and directed research, or more depending on transfer credits) in addition to the required core courses and the dissertation. Student financial support All students accepted into the EES program are guaranteed four years of financial support (stipend, tuition waiver). Students may be assigned as research assistants or teaching assistants within related departments. [-]

PhD in Microsystems Engineering

Rochester Institute of Technology (RIT)
Campus Full time 3 years September 2017 USA Rochester

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:... [-]


PhD in Engineering

Rochester Institute of Technology (RIT)
Campus Full time 4 years September 2017 USA Rochester

The doctorate program in engineering prepares the next generation of engineering leaders to tackle some of the most daunting and complex problems facing our society. [+]

PhDs 2017 in Michigan USA. Engineering Ph.D. Program overview The doctorate program in engineering prepares the next generation of engineering leaders to tackle some of the most daunting and complex problems facing our society. The program's goal is to produce engineering graduates who are subject matter experts in a knowledge domain within an engineering discipline and who can compete successfully with those who have earned discipline-specific doctorates in engineering. Instead of restricting graduates to individual engineering fields (e.g., chemical, computer, electrical, industrial, mechanical, etc.) the program provides students with the flexibility to become subject matter experts and engineering innovators in an open-architecture environment, fostering intellectual growth along both interdisciplinary pathways and within the bounds of conventional engineering disciplines. With this approach, the program develops world-class researchers who can capitalize on the most promising discoveries and innovations, regardless of their origin within the engineering field, to develop interdisciplinary solutions for real-world challenges. The Ph.D. in engineering requires each student to address fundamental technical problems of national and global importance for the 21st Century. Four key industries–health care, communications, energy, and transportation–are addressed specifically. These industries impact every individual on the planet and are the focus areas doctoral candidates and faculty will contribute to through study and research. Curriculum The curriculum for the doctorate in engineering provides disciplinary and interdisciplinary courses, research mentorship, and engineering focus area seminars. Students are expected to have a disciplinary-rooted technical strength to conduct and complete independent, original, and novel collaborative interdisciplinary research contributing to one of the four industrial and/or societal focus areas. The program is comprised of 66 credit hours: 30 course credits, 6 engineering focus area credits, and 30 research credits. Core courses Students will complete the following core courses: Interdisciplinary Research Methods, Engineering Analytics Foundation, and Engineering Analytics Elective. Discipline foundation courses Foundation courses build depth within a disciplinary field of engineering, such as mechanical engineering, electrical and microelectronics engineering, computer engineering, industrial and systems engineering, chemical engineering, or biomedical engineering. Industry focus area courses Beginning with the course Translating Discovery into Practice, this rigorous set of four engineering courses provides students with comprehensive coverage of engineering challenges and solution approaches in the four key industry areas associated with the program: health care, energy, communications, and transportation. Students choose a focus area and complete the corresponding set of courses. Students can also take additional courses from their selected industry as electives. Focus area electives Students complete at least three focus area electives. These courses, selected from courses within current RIT degree programs and associated with the focus area of study chosen by the student, provide specialized knowledge and skill-sets relevant to the student’s dissertation research. Comprehensive exam Students complete a comprehensive exam at the end of their first year of study. The exam evaluates the student’s aptitude, potential, and competency in conducting Ph.D. level research. Dissertation proposal Students must present a dissertation proposal to their dissertation committee no sooner than six months after the comprehensive exam and at least six months prior to the candidacy exam. The proposal provides the opportunity for the student to elaborate on their research plans and to obtain feedback on the direction and approach to their research from his/her dissertation committee. Candidacy exam The candidacy exam provides comprehensive feedback to the student regarding their dissertation research progress and expected outcomes prior to defense of their full dissertation. Dissertation presentation and defense Each doctoral candidate will prepare an original, technically sound, and well-written dissertation. They will present and defend their dissertation and its accompanying research to their dissertation committee. Admission requirements To be considered for admission to the Ph.D. program in engineering, candidates must fulfill the following requirements: Hold a baccalaureate degree in an engineering discipline from an accredited university, Submit a resume highlighting educational background and experiences, Submit a Statement of Purpose for Research, Submit scores from the Graduate Record Examination (GRE), Submit official transcripts (in English) for all previously completed undergraduate and graduate course work, Have a GPA of 3.0 or higher (or a minimum GPA of 3.0 in foundation course work), Submit at least two letters of academic and/or professional recommendation. Referees should send recommendation letters by email to gradinfo@rit.edu or via postal service directly to Graduate Enrollment Services. Participate in an on-campus or teleconference interview (when applicable), and Complete a graduate application. For international applicants whose native language is not English must submit scores from the Test of English as a Foreign Language. Minimum scores of 587 (paper-based) or 94 (Internet-based) are required. International English Language Testing System (IELTS) scores will be accepted in place of the TOEFL exam. Minimum scores will vary; however, the absolute minimum score required for unconditional acceptance is 6.5. Additional information Residency All students in the program must spend at least three years as resident full-time student before completing the degree. [-]

PhD in Imaging Science

Rochester Institute of Technology (RIT)
Campus Full time 3 years September 2017 USA Rochester

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 course work, including a core curriculum, as defined by the student’s plan of study; Passing a series of examinations; and Completing an acceptable dissertation under supervision of the student’s research adviser and dissertation committee.

Admission requirements

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 course work. Submit two letters of recommendation from individuals well-qualified to judge their abilities for graduate study. Submit an application for graduate study. ... [-]

PhD in Color Science

Rochester Institute of Technology (RIT)
Campus Full time 3 years September 2017 USA Rochester

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. [+]

Doctor of Philosophy in Color Science

 

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.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. RIT has a long history of scholarship in color science.The program is designed for students whose undergraduate majors are in physics, chemistry, mathematics, computer science, engineering, experimental psychology, imaging, or any applied discipline pertaining to the quantitative description of color, for example, textiles, graphic arts, animation, material science, and polymer science. All students must earn 99 credits as a graduate student. For full-time students, the program requires three or more years of study at the graduate level for students entering the program with a baccalaureate degree. The curriculum is a combination of required courses in color science, elective courses appropriate for the candidate’s background and interests, a three quarter research project during the second year of study, and a research dissertation. Students must pass a qualifying examination during their second year of study and a candidacy examination at least one year before completing their dissertation. Candidates who wish to enter the program but lack adequate preparation might have to take as many as 36 credits of undergraduate foundation courses in mathematics, statistics, computer science, and general science before matriculating with graduate status.... [-]


PhD in Astrophysical Sciences and Technology

Rochester Institute of Technology (RIT)
Campus Full time 3 years September 2017 USA Rochester

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.... [-]


PhD in Sustainability

Rochester Institute of Technology (RIT)
Campus Full time 3 years September 2018 USA Rochester

The Ph.D. program focuses on sustainable production systems — systems that create goods and services using processes that are: non-polluting; conserving of energy and natural resources; economically viable; and safe and healthful for workers, communities, and consumers [+]

PhDs 2017 in Michigan USA. This Ph.D. program focuses on sustainable production systems — systems that create goods and services using processes that are: non-polluting; conserving of energy and natural resources; economically viable; and safe and healthful for workers, communities, and consumers. Coursework and research takes a systems level and interdisciplinary approach to solving seemingly intractable sustainability problems, as opposed to single disciplinary and locally optimized approaches destined to yield marginal positive impacts. Students will have the opportunity to work with multidisciplinary faculty and researchers in numerous research centers, including GIS’ National Center for Remanufacturing and Resource Recovery (NC3R) , an internationally-recognized leader for applied research in remanufacturing, the Center for Sustainable Production (CSP) dedicated to enhancing the environmental and economic performance of products and processes, the Center for Sustainable Mobility (CSM) focused on the evaluation of environmental and economic impacts of alternative fuel and vehicle propulsion technologies, the Systems Modernization and Sustainment Center (SMS) that develops technologies for optimal life-cycle design, management, and modernization of large equipment systems, the New York State Pollution Prevention Institute (NYSP2I) focused on enhancing the development and implementation of pollution prevention techniques, and the NanoPower Research Labs (NPRL) dedicated to the creation and utilization of nano devices and materials for power generation and storage. ... [-]

PhD in Computing and Information Sciences

Rochester Institute of Technology (RIT)
Campus Full time 3 years September 2017 USA Rochester

The doctoral program in computing and information sciences is designed to produce independent scholars, well-prepared educators, and cutting-edge researchers poised to excel in their work in computing and interdisciplinary academic or industrial environments. [+]

The doctoral program in computing and information sciences is designed to produce independent scholars, well-prepared educators, and cutting-edge researchers poised to excel in their work in computing and interdisciplinary academic or industrial environments. The degree highlights two of the most unique characteristics of the Golisano College: its breadth of program offerings and its scholarly focus on discovering solutions to real-world problems by balancing theory and practice.The program focuses on the theoretical and practical aspects of cyberinfrastructure as applied to specific problems across multiple domains. It is a blend of intra-disciplinary computing knowledge areas and inter-disciplinary domain areas. Cyberinfrastructure Cyberinfrastructure (CI) is a comprehensive infrastructure integrating hardware, data, networks, and digitally-enabled sensors to provide secure, efficient, reliable, accessible, usable, and interoperable suites of software and middleware services and tools. Our doctorate program plays a leadership role in CI research by providing human-centered tools for the science and engineering communities. These tools and services focus on such areas as high performance computing, data analysis and visualization, cyber-services and virtual environments, and learning and knowledge management. ... [-]

PhD in Engineering Management

Western New England University
Campus or Online Full time Part time 3 - 6 years February 2017 USA Springfield + 1 more

In this full- or part-time program, you will learn the technical depth and gain the breadth of knowledge to become a successful researcher, practitioner, or educator in the management of engineering and technology. You will develop the skills needed to conduct rigorous research in areas related to the improvement, design, and management of projects and programs within complex human/technological systems, including engineering, healthcare, service, and logistical/transportation systems. [+]

PhDs 2017 in Michigan USA. The industry leaders of tomorrow must earn their credentials today. Enroll in Western New England University’s PhD in Engineering Management and prepare to take your place at the top of your organization. In this full- or part-time program, you will learn the technical depth and gain the breadth of knowledge to become a successful researcher, practitioner, or educator in the management of engineering and technology. You will develop the skills needed to conduct rigorous research in areas related to the improvement, design, and management of projects and programs within complex human/technological systems, including engineering, healthcare, service, and logistical/transportation systems. Applications will be reviewed on a rolling basis after January 15. Entry points: Fall, Winter, Spring, Summer. Admissions Requirements Candidates for the PhD in Engineering Management should possess a master’s or bachelor’s degree in engineering or closely related discipline. A cumulative GPA of at least a 3.5 (4.0 scale) will be required for admission. A GRE score from the last five years, with a combined verbal and quantitative score of at least an 1100 will be required for consideration. GRE revised test conversion chart. Candidates below established GPA and GRE requirements will be considered on a case-by-case basis. Candidates whose primary language is not English will be required to demonstrate proficiency in English. Additional admission requirements include the following: 1) Evidence of completion of a probability and statistics course with a grade of at least a “C” 2) Competence in at least one structured programming language (C++, FORTRAN, Visual BASIC, etc.) Degree Requirements The PhD degree program is designed for both full- and part-time students. Full-time students can complete the program in three to five years and part-time students will be able to complete the program in four to six years. Students who do not successfully complete the PhD program but have met the requirements for the Master of Science in Engineering Management degree will be awarded that degree upon exit from the program. Candidates with a master’s degree will complete 30 credits at the 600 and 700 level and a 27-credit dissertation for 57 total credits. Candidates with a bachelor’s degree will complete 60 credits at the 600 and 700 level and a 27-credit dissertation for 87 total credits. [-]