Doctor of Philosophy in Engineering in New York in USA

View PhD Programs in Engineering 2017 in New York in USA


Earning a Ph.D. requires extended study and intense mental effort. A PhD is an academic study on which you concentrate for four to six years after obtaining your master’s degree, and that leads, if successful, to a PhD degree, the highest academic degree.

Upon advancements in applied sciences and engineering studies, you are awarded a doctorate in Engineering. The education in Engineering PhD results into innovation, research and excellent training in the field. You can enroll for the course in many of the UK and US universities as well as other applicable institutions worldwide.

The USA remains the world’s most popular destination for international students. Universities in the US dominate the world rankings and the country also offers a wide variety of exciting study locations. State university systems are partially subsidized by state governments, and may have many campuses spread around the state, with hundreds of thousands of students.

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.

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PhD in Mechanical Engineering

Binghamton University
Campus Full time 4 - 6 years September 2017 USA Binghamton

The PhD program is a research-intensive, multidisciplinary program. Funding is available in the form of teaching and research assistantships. Many of our assistantships include union and health benefits. [+]

Doctors of Philosophy in Engineering in New York in USA. PhD in Mechanical Engineering The Department of Mechanical Engineering offers programs leading to the Master of Science (MS), Master of Engineering (MEng), and PhD in mechanical engineering. Our curriculum includes theory, design and laboratory experience in the areas of thermal fluids, mechanics, dynamic systems, and design and materials. Our program seeks to train students to become future leaders of the industry. The MS track provides a balanced course of study that includes advanced theory and practical knowledge application. Students will be adequately prepared to pursue a career in industry or enter a doctoral program. The MEng track prepares students for professional practice and requires no thesis or project. The PhD program is a research-intensive, multidisciplinary program. Funding is available in the form of teaching and research assistantships. Many of our assistantships include union and health benefits. Add-on certificates and accelerated programs such as a BS + MS and a fast track BS + MBA are also available. Graduate Academic Program Information The Mechanical Engineering Department offers graduate programs in the broad field of mechanical engineering, and is part of the university-wide, interdisciplinary Materials Science & Engineering. The PhD program prepares students for basic and applied research in mechanical engineering through multidisciplinary research areas reflective of the interests of ME faculty. Doctoral Programs The PhD programs prepare students for basic and applied research in mechanical engineering or materials science & engineering. Research areas are multidisciplinary and reflect the interests of Watson School faculty. Students may specialize in one of the following areas: Applied Mechanics and Design Dynamic Systems and Acoustics Materials Transport Phenomena Professional Development The graduate program in mechanical engineering boasts a flexible and interdisciplinary curriculum that encourages students to explore opportunities that may enrich their academic experience. At the same time, it fosters relationships with industry giants such as Samsung as well as collaborative curricula with universities overseas. Laboratory facilities on campus are new and state-of-the-art. The PhD program includes the following research areas: Mechanics and design, with emphasis on solid mechanics/stress analysis, vibrations and tribology Thermofluids, with emphasis on heat transfer, lubrication, materials processing and environmental/biological transport phenomena Materials, with emphasis on microstructural/property relationships and electronic packaging materials Computational mechanics, with emphasis on asymptotic methods and hybrid analytical/computational methods Watson Career and Alumni Connections offers professional advice and services such as interview guidance, cover letter critiques and networking opportunities. The Mechanical Engineering Graduate Student Organization is also available to help new and current students for academic or general questions about the community. After You Graduate Due to the marketability of an advanced degree in mechanical engineering, alumni easily transition into a diverse range of careers. Graduates of the program have obtained positions in competitive companies such as Apple, Microsoft, Samsung, Ford, Texas Instruments, General Electric, Toyota, Lockheed Martin and CISCO. Doctoral graduates can enter academia by becoming professors in institutions such as Northeastern University. Admissions Requirements To be eligible for graduate study, you must: Provide a complete set of your undergraduate (and, if applicable, graduate) transcripts showing one of the following: You have earned a bachelor's degree (or its equivalent) from a nationally or regionally accredited college or university You are within one academic year of earning a bachelor’s degree (or its equivalent) from a nationally or regionally accredited college or university You are eligible to apply as part of a memorandum of understanding between your current institution and Binghamton University Have earned, at minimum, one of the following: A 3.0 GPA over your entire undergraduate career A 3.0 GPA during your last 60 semester credits or 90 quarter credits of your undergraduate degree, with most courses graded regularly (not as "pass/fail") A 3.0 GPA in a graduate degree, with most courses graded regularly (not as "pass/fail") In consideration of the different grading scales used around the world, each academic department evaluates international transcripts to determine on a case-by-case basis whether they demonstrate one of the above requirements. To apply, you must submit the following materials. For general guidelines for these materials, see the Admission Requirements website. Online graduate degree application with graduate degree application fee Transcripts from each college or university that you have attended Personal statement of 2 to 3 pages describing your reasons for pursuing graduate study, your career aspirations, your special interests within your field, and any unusual features of your background that might need explanation or be of interest to the graduate admissions committee Résumé or curriculum vitae Three letters of recommendation Official GRE scores International students must also submit the following materials. For more information about these materials, see the International Students section of the Admission Requirements website. International Student Financial Statement (ISFS) form Supporting financial documentation (such as bank statements, scholarship or sponsor letters, etc.) Proof of English proficiency (such as official TOEFL/IELTS/PTE Academic scores) This information is subject to change. While we make every effort to update these program pages, we recommend that you contact the department with questions about program-specific requirements. Class Profile GRE Verbal: 95% GPA: 3.44 *These scores represent the AVERAGE for the recently admitted class; scoring lower does not result in automatic rejection and scoring higher does not guarantee acceptance. Deadlines Fall: Rolling (February 1 Funding) Spring: Rolling (October 15 Funding) [-]

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. [+]

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 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 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:... [-]