Materials Science and Engineering Adv. Cert.
Program Overview
Materials Science and Engineering Advanced Certificate
Overview
The advanced certificate in materials science and engineering is specially designed to establish a common base of materials-oriented knowledge for students with baccalaureate degrees in chemistry, chemical engineering, electrical engineering, mechanical engineering, physics, and related disciplines. The program provides a new intellectual identity to those interested in the study of advanced materials and offers a serious interdisciplinary learning experience in materials studies, crossing over the traditional boundaries of such classical disciplines as chemistry, physics, and electrical, mechanical, and microelectronic engineering.
Curriculum
Materials Science and Engineering, advanced certificate, typical course sequence
- First Year
- MTSE-601 | Materials Science | 3 This course provides an understanding of the relationship between structure and properties necessary for the development of new materials. Topics include atomic and crystal structure, crystalline defects, diffusion, theories, strengthening mechanisms, ferrous alloys, cast irons, structure of ceramics and polymeric materials and corrosion principles. Term paper on materials topic. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Fall).
- MTSE-704 | Theoretical Methods in Materials Science and Engineering | 3 This course includes the treatment of vector analysis, special functions, waves, and fields; Maxwell Boltzmann, Bose-Einstein and Fermi-Dirac distributions, and their applications. Selected topics of interest in electrodynamics, fluid mechanics, and statistical mechanics will also be discussed. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Fall).
- MTSE-705 | Experimental Techniques | 3 The course will introduce the students to laboratory equipment for hardness testing, impact testing, tensile testing, X-ray diffraction, SEM, and thermal treatment of metallic materials. Experiments illustrating the characterization of high molecular weight organic polymers will be performed. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lab 3 (Spring).
- Elective | 9
Electives
- MTSE-602 | Polymer Science Polymers are ubiquitous. They are used in everyday applications as well as for specialty and cutting-edge technologies. This course is an introduction to the chemistry and physics of synthetic polymers, which include plastics, elastomers and fibers. The synthesis of polymers, their fundamental properties, and the relations between their syntheses, structure, and properties will be studied. Among the topics discussed are the morphology, thermal behavior, solubility, viscoelasticity and characterization of polymers. Copolymerization, tacticity and sustainability of polymers will also be covered. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Spring).
- MTSE-617 | Material Degradation This course introduces the basic electrochemical nature of corrosion and considers the various factors that influence the rate of corrosion in a variety of environments. Various means of controlling corrosion are considered with demonstrations. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Fall).
- MTSE-632 | Solid State Science This course is an introduction to the physics of the solid state including crystal structure, x-ray diffraction by crystals, crystal binding, elastic waves and lattice vibrations, thermal properties, the free electron model of solids, and band theory and its applications. (This course is restricted to MSENG-MS Major students.) Lecture 3 (Fall).
- MTSE-780 | Theory of Microsensors and Actuators This course introduces the theory and development of sensors at the molecular and ionic levels. Mechanism details for operation of the sensors and actuators will be discussed. Fundamental aspects related to chemical, biochemical, piezoresistive, magnetic, thermal, and luminescent sensors will be discussed with an emphasis on the development of innovative products. Control systems based on ion selectivity for biomedical applications will be covered in detail. Neurotransmitters, neural network, and directional selectivity using conducting polymers will also be covered. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Spring).
- MTSE-799 | Independent Study This course is a faculty-directed tutorial of appropriate topics that are not part of the formal curriculum. The level of study is appropriate for a masters-level student. (Enrollment in this course requires permission from the department offering the course.) Ind Study (Fall, Spring, Summer).
Admissions and Financial Aid
Application Details
To be considered for admission to the Materials Science and Engineering Adv. Cert. program, candidates must fulfill the following requirements:
- Complete an online graduate application.
- Submit copies of official transcript(s) (in English) of all previously completed undergraduate and graduate course work, including any transfer credit earned.
- Hold a baccalaureate degree (or US equivalent) from an accredited university or college in chemistry, physics, chemical engineering, electrical engineering, mechanical engineering, or a related field. A minimum cumulative GPA of 3.2 (or equivalent) is recommended.
- Submit a current resume or curriculum vitae.
- Submit a personal statement of educational objectives.
- Submit two letters of recommendation.
- Entrance exam requirements: None
- Submit English language test scores (TOEFL, IELTS, PTE Academic), if required.
English Language Test Scores
International applicants whose native language is not English must submit one of the following official English language test scores. Some international applicants may be considered for an English test requirement waiver.
- TOEFL: 88
- IELTS: 6.5
- PTE Academic: 60
International students below the minimum requirement may be considered for conditional admission. Deaf and hard-of-hearing test takers with significant hearing loss do not need to take the listening and speaking sections for the TOEFL and IELTS. Each program requires balanced sub-scores when determining an applicant’s need for additional English language courses.
Cost and Financial Aid
An RIT graduate degree is an investment with lifelong returns. Graduate tuition varies by degree, the number of credits taken per semester, and delivery method. View the general cost of attendance or estimate the cost of your graduate degree.
A combination of sources can help fund your graduate degree. Learn how to fund your degree.
Program Outline
The advanced certificate in materials science and engineering is specially designed to establish a common base of materials-oriented knowledge for students with baccalaureate degrees in chemistry, chemical engineering, electrical engineering, mechanical engineering, physics, and related disciplines. The program provides a new intellectual identity to those interested in the study of advanced materials and offers a serious interdisciplinary learning experience in materials studies, crossing over the traditional boundaries of such classical disciplines as chemistry, physics, and electrical, mechanical, and microelectronic engineering.
The advanced certificate may be completed on a full- or part-time basis. Part-time students are normally limited to a maximum of two courses, or 6 credit hours, each semester.
Students who are interested in further study may apply the credits earned in thew advanced certificate to the MS degree in materials science and engineering.
What is a Graduate Certificate?
A graduate certificate, also called an advanced certificate, is a selection of up to five graduate level courses in a particular area of study. It can serve as a stand-alone credential that provides expertise in a specific topic that enhances your professional knowledge base, or it can serve as the entry point to a master's degree. Some students complete an advanced certificate and apply those credit hours later toward a master's degree.
Students are also interested in: Materials Science and Engineering MS
Curriculum for Materials Science and Engineering Adv. Cert.
Materials Science and Engineering, advanced certificate, typical course sequence
| Course | Sem. Cr. Hrs. | |
|---|---|---|
| First Year | ||
| MTSE-601 | Materials Science |
3 |
This course provides an understanding of the relationship between structure and properties necessary for the development of new materials. Topics include atomic and crystal structure, crystalline defects, diffusion, theories, strengthening mechanisms, ferrous alloys, cast irons, structure of ceramics and polymeric materials and corrosion principles. Term paper on materials topic. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Fall). | ||
| MTSE-704 | Theoretical Methods in Materials Science and Engineering |
3 |
This course includes the treatment of vector analysis, special functions, waves, and fields; Maxwell Boltzmann, Bose-Einstein and Fermi-Dirac distributions, and their applications. Selected topics of interest in electrodynamics, fluid mechanics, and statistical mechanics will also be discussed. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Fall). | ||
| MTSE-705 | Experimental Techniques |
3 |
The course will introduce the students to laboratory equipment for hardness testing, impact testing, tensile testing, X-ray diffraction, SEM, and thermal treatment of metallic materials. Experiments illustrating the characterization of high molecular weight organic polymers will be performed. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lab 3 (Spring). | ||
Elective |
9 | |
| Total Semester Credit Hours | 18 |
|
Electives
| Course | ||
|---|---|---|
| MTSE-602 | Polymer Science |
|
Polymers are ubiquitous. They are used in everyday applications as well as for specialty and cutting-edge technologies. This course is an introduction to the chemistry and physics of synthetic polymers, which include plastics, elastomers and fibers. The synthesis of polymers, their fundamental properties, and the relations between their syntheses, structure, and properties will be studied. Among the topics discussed are the morphology, thermal behavior, solubility, viscoelasticity and characterization of polymers. Copolymerization, tacticity and sustainability of polymers will also be covered. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Spring). | ||
| MTSE-617 | Material Degradation |
|
This course introduces the basic electrochemical nature of corrosion and considers the various factors that influence the rate of corrosion in a variety of environments. Various means of controlling corrosion are considered with demonstrations. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Fall). | ||
| MTSE-632 | Solid State Science |
|
This course is an introduction to the physics of the solid state including crystal structure, x-ray diffraction by crystals, crystal binding, elastic waves and lattice vibrations, thermal properties, the free electron model of solids, and band theory and its applications. (This course is restricted to MSENG-MS Major students.) Lecture 3 (Fall). | ||
| MTSE-780 | Theory of Microsensors and Actuators |
|
This course introduces the theory and development of sensors at the molecular and ionic levels. Mechanism details for operation of the sensors and actuators will be discussed. Fundamental aspects related to chemical, biochemical, piezoresistive, magnetic, thermal, and luminescent sensors will be discussed with an emphasis on the development of innovative products. Control systems based on ion selectivity for biomedical applications will be covered in detail. Neurotransmitters, neural network, and directional selectivity using conducting polymers will also be covered. (This class is restricted to degree-seeking graduate students or those with permission from instructor.) Lecture 3 (Spring). | ||
| MTSE-799 | Independent Study |
|
This course is a faculty-directed tutorial of appropriate topics that are not part of the formal curriculum. The level of study is appropriate for a masters-level student. (Enrollment in this course requires permission from the department offering the course.) Ind Study (Fall, Spring, Summer). | ||
* Additional approved electives comprise graduate courses offered by programs in the College of Science, Kate Gleason College of Engineering, College of Engineering Technology, Golisano Institute for Sustainability, School of Individualized Studies, and the Saunders College of Business. Prerequisites for all approved electives include Graduate Standing and may require permission of instructor.
Rochester Institute of Technology (Dubai)
Overview:
Rochester Institute of Technology (Dubai) is a branch campus of the renowned Rochester Institute of Technology in the United States. Located in Dubai Silicon Oasis, a special economic zone for knowledge and innovation, RIT Dubai offers a comprehensive range of undergraduate and graduate programs in various fields, including engineering, business, computing, and design. The institution is committed to providing students with a high-quality American education in a dynamic and international setting.
Services Offered:
RIT Dubai provides a wide array of services to support student success, including:
Academic Support Center:
- Offers tutoring, study skills workshops, and other resources to enhance academic performance.
Advising Resources:
- Provides guidance on academic planning, career exploration, and personal development.
Health and Wellness:
- Offers access to healthcare services, counseling, and wellness programs.
Athletics and Recreation:
- Provides opportunities for students to participate in sports, fitness activities, and recreational programs.
Student Leadership:
- Encourages student involvement in clubs, organizations, and leadership initiatives.
Student Accommodation:
- Offers on-campus housing options for students.
Parking and Transportation:
- Provides parking facilities and transportation services for students.
Student Life and Campus Experience:
RIT Dubai fosters a vibrant and inclusive campus community where students can engage in a variety of activities and experiences, including:
Student Life at RIT Dubai:
- Offers opportunities for students to connect with peers, participate in social events, and explore cultural activities.
New Student Orientation:
- Provides a welcoming introduction to campus life and resources.
Co-op and Internship Program:
- Offers students practical work experience through co-op and internship opportunities.
Key Reasons to Study There:
American Degree:
- RIT Dubai offers a true American degree, recognized globally for its quality and rigor.
State-of-the-Art Campus:
- The campus features modern facilities and technology to support learning and research.
Co-op and Internship Program:
- Provides students with valuable work experience and career development opportunities.
Study Abroad Options:
- Offers students the chance to study at other RIT campuses or partner institutions around the world.
Global Connectivity:
- RIT Dubai is located in a dynamic and international hub, providing students with diverse perspectives and networking opportunities.
Academic Programs:
RIT Dubai offers a range of undergraduate and graduate programs, including:
Undergraduate Programs:
- Bachelor of Fine Arts in New Media Design
- Bachelor of Science in Psychology
- Bachelor of Science in Industrial Engineering
- Bachelor of Science in Cybersecurity
- Bachelor of Science in Computing and Information Technologies
- Bachelor of Science in Electrical Engineering
- Bachelor of Science in Mechanical Engineering
- Bachelor of Science in Marketing
- Bachelor of Science in Finance
- Bachelor of Science in Global Business Management
Graduate Programs:
- Master of Science in Organizational Leadership and Innovation
- Masters of Science in Professional Studies: Future Foresight and Planning
- Masters of Science in Engineering Management
- Masters of Science in Mechanical Engineering
- Masters of Science in Professional Studies: Data Analytics
- Masters of Science in Professional Studies: Smart Cities
- Masters of Science in Cybersecurity
- Masters of Science in Electrical Engineering
Other:
- RIT Dubai has a strong focus on innovation and entrepreneurship, with dedicated labs and centers supporting student projects and research.
- The institution boasts a diverse student body representing over 75 nationalities, creating a rich and multicultural learning environment.
- RIT Dubai has a high employability rate, with over 80% of graduates securing employment within six months of graduation.
- The institution has a strong network of alumni, providing students with valuable connections and career support.
