Doctor of Philosophy in Louisiana USA

Top PhD Programs in Louisiana 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.

Louisiana is the 25th largest state in terms of population of the 50 states. It has a vibrant economy led by the agricultural sector and is the biggest crawfish producer in the world. It has numerous state universities and colleges within its borders.

Search Doctorate Degrees in Louisiana in USA 2017

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Master of Arts/Ph.D Industrial/Organizational Psychology

Louisiana Tech University
Campus Full time September 2017 USA Ruston

The Industrial/Organizational Psychology program prepares students to work in areas relating to applied behavioral science in organizations and business. Outside of class, students are [+]

PhD Degrees 2017 in Louisiana USA. The Industrial/Organizational Psychology program prepares students to work in areas relating to applied behavioral science in organizations and business. Outside of class, students are expected to gain hands-on experience through involvement on various research and applied project teams with faculty supervision. The Ph.D. program involves rigorous preparation in psychological foundations, research methods/statistical analysis, Industrial/Organizational Psychology, and successful completion and defense of a dissertation involving original research. The program generally requires three to four years of full-time study post-baccalaureate. The actual amount of time needed varies depending on student prior preparation (a limited amount of credit may be requested for prior graduate work) and progress in the program. All students accepted into the program receive a graduate assistantship with a stipend. The I/O Psychology Doctoral Program is committed to diversity and embeds this initiative throughout the program curricula. The I/O Program strives to produce culturally competent professionals who are advocates for social justice and well equipped to meet the needs of a diverse clientele. Furthermore, the program strives to provide a supportive and encouraging learning environment for the training of diverse individuals and providing opportunities in diverse settings for a broad spectrum of individuals. The program avoids any restrictions that are irrelevant to success in graduate training. Thus, the program has the expectation that faculty and students “are aware of and respect cultural, individual, and role differences including those based on age, gender, gender identity, race, ethnicity, culture, national origin, religion, sexual orientation, disability, language, and socioeconomic status” (APA Ethics Code, 2002, Principle E, p. 1063). Admission - To be competitive, students should have a minimum GRE Verbal and a Quantitative scores above the 50th percentile. - Students should hold a bachelor’s degree in psychology, or 15 hours of psychology with at least 6 hours of statistics and research, or a master’s degree in psychology. - A minimum undergraduate GPA is 3.0 for admission to the program. - The admissions committee may seek and use additional information (e.g., letters of recommendation, sample writing, etc.) in individual cases. Required documents - Official GRE scores must be less than five years old from exam date. Request GRE scores from Educational Testing Services (ETS) to be sent to Institution Code 6372, Dept. Code 2008. - A statement of purpose - Louisiana Tech University graduate application (online) - Three letters of recommendation (part of the online application) - Graduate Assistantship Application (download form from online application) - Official transcripts [-]

Ph.D. Engineering - Concentration in Nanoscale Systems

Louisiana Tech University
Campus Full time September 2017 USA Ruston

Required General Core Courses. Take all of the following: (9 SCH) - MATH 574 Numerical Solutions of PDE [+]

Required General Core Courses Take all of the following: (9 SCH) - MATH 574 Numerical Solutions of PDE - ENGR 641 Formulation of Solutions to Engineering Problems - STAT 620 Theory of Probability Micro/Nanotechnology Core Courses Take the first two and choose two from the remaining three: (12 SCH) - MSE 501 Fundamentals of Microfabrication Processes - MSE 502 Microsystems Principles - MSE 504 Advanced Materials for Micro/Nano Devices & Systems - MSE 505 Nanotechnology Principles - MSE 512 Biotechnology Principles Qualifiying Examinations - ENGR 685 Doctoral Qualifying Examination - ENGR 686 Oral Comprehensive Examination Doctoral Seminar: 3 SCH All students are automatically enrolled in the Doctoral Seminar course (ENGR 610) each Fall quarter. 3 SCH of the seminar may be counted towards the degree. Independent Study and Special Topics (±12 SCH total) Students may enroll in 6 SCH or more of doctoral level special topics courses (ENGR 657) as part of the course work for the degree. Students may enroll in 6 SCH of Doctoral Independent Study (ENGR 650) under the supervision of a faculty member. Independent study can be a preparation for the research leading to the dissertation. Recommended Elective courses Choose four or more of the following to complete to reach 48 SCH of courses: (12+ SCH) - BIEN 557 Special Topics – BioMEMS - BIEN 557 Special Topics – Protein Engineering - CMEN 504 Advanced Chemical Engineering Kinetics - CMEN 513 Transport Phenomena - CMEN 557 Special Topics - Chemical Microsystems - CMEN 557 Special Topics – Nanosystems Modeling - CMEN 557 Special Topics - Thermodynamics - CHEM 502 Selected Topics in Organic Chem. - Principles of Polymers - MSNT 506/CHEM 523 Nanofabrication by Self-Assembly - ELEN 533 Optoelectronics - ELEN 535 Advanced Topics in Microelectronics - ENGR 566 Quality in Engineering - ENGR 592 Engineering Computational Methods - ENGR 622 The Academic Enterprise - ENGR 631 Global Competitiveness and Management of Technology - MEEN 557 Durability of Materials - MEMT 508 Finite Element Analysis - MEMT 511 Modern Engineering Materials - MSE 506 Micro/Nano Scale Materials Measurements & Analysis - MSE 507/ELEN 537 Advanced Microfabrication with CAD - MSE 508/ELEN 538 Advanced Microelectronic Devices with CAD - MSE 609 Microsystems Analysis with CAD - MSE 610 Microsystems Design with CAD - PHYS 512 Solid State Physics - STAT 621 Theory of Statistics *Courses not listed are also acceptable, provided they are approved by the student’s advisory committee. Research and Dissertation 18 SCH - ENGR 651 Research and Dissertation Total: 48 SCH of courses + 18 SCH of Research & Dissertation = 66 SCH. Students must also make a B or better in a minimum of 18 SCH of 600 level courses. [-]

Ph.D. Engineering - Concentration in Infrastructure Systems

Louisiana Tech University
Campus Full time September 2017 USA Ruston

General Core Courses. Take the following 3 courses (9 SCH): - ENGR 641 Formulation of Solutions [+]

General Core Courses

Take the following 3 courses (9 SCH) - ENGR 641 Formulation of Solutions to Engineering Problems (Fall) - STAT 505 Statistics for Engineering and Science (Winter) - MATH 574 Numerical Solutions to PDEs (Spring)

Disciplinary (Materials and Construction Systems) Core Courses

Choose 4 of the following courses: (12 SCH) - CVEN 459 Introduction to Infrastructure Management - CVEN 580 Introduction to Trenchless Technology - ENGR 530 Engineering Experimentation and Research - MEMT 508 Finite Element Analysis - MEMT 511 Modern Engineering Materials - MEMT 563 Theory of Elasticity - MEMT 577 Advanced Strength of Materials

Qualifying Examinations

- ENGR 685 Doctoral Qualifying Examination - ENGR 686 Oral Comprehensive Examination... [-]


Ph.D. Engineering - Concentration in Physics

Louisiana Tech University
Campus Full time September 2017 USA Ruston

General Core Courses. Take all three of the following: Mathematical Methods for Scientists [+]

General Core Courses Take all three of the following: (9 SCH) - PHYS 510/ENGR 641 Mathematical Methods for Scientists and Engineers (Fall) - STAT 505 Statistics for Engineering and Science (Winter) - MATH 574 Numerical Solutions to PDEs (Spring) Disciplinary (Physics) Core Courses Take all five of the following: (15 SCH) - PHYS 511 Electromagnetic Theory (Spring) - PHYS 512 Solid State Physics (Fall) - PHYS 521/MEEN 571 Theoretical Mechanics (Winter) - PHYS 522: Quantum Mechanics (Spring) - PHYS 533 Statistical Mechanics (Winter) Qualifying Examinations - ENGR 685 Doctoral Qualifying Examination - ENGR 686 Oral Comprehensive Examination Doctoral Seminar: 3 SCH All students are automatically enrolled in the Doctoral Seminar course (ENGR 610) each Fall quarter. 3 SCH of the seminar may be counted towards the degree. Recommended Elective courses (Students can take up to two Doctoral level Special Topics courses - either PHYS 557 or ENGR 657 - as part of the elective course work for the degree, for a total of 6 SCH.) Choose seven of the following: (21 SCH) - BIEN 557 Special Topics – BioMEMS - BIEN 557 Special Topics – Protein Engineering - CHEM 502 Selected Topics in Organic Chemistry – Principles of Polymers - CHEM 523 Nanofabrication by Self-Assembly - ENGR 566 Quality in Engineering - ENGR 592 Engineering Computational Methods - ELEN 533 Optoelectronics - ELEN 535 Advanced Topics in Microelectronics - MATH 655 Mathematical Modeling - MEEN 549 Computational Fluid Dynamics - MEMT 508 Finite Element Methods - MEMT 511 Modern Engineering Materials - MEMT 565 Continuum Mechanics - MSE 501 Microsystem Principles - MSE 502 Microfabrication Principles - MSE 503 Microfabrication Applications and Device Fabrication - MSE 504 Advanced Materials For Micro/Nano Devices And Systems - MSE 505 Nanotechnology Principles - MSE 506 Micro/Nano Scale Materials, Measurements, and Analysis - PHYS 515 Detectors for Particle & Nuclear Physics (proposed) - PHYS 523 Classical Theory of Fields - PHYS 524 Quantum Theory of Fields - PHYS 531 Theories of Physics I - PHYS 532 Theories of Physics II - PHYS 540 Computational Methods in Physics Modeling and Simulation I - PHYS 541 Computational Methods in Physics Modeling and Simulation II Research and Dissertation: 18 hours of research and dissertation - PHYS 651(prop.)/ENGR 651 Research and Dissertation Total: 48 SCH of courses + 18 SCH of Research & Dissertation = 66 SCH. Research and Dissertation: Minimum 18 hours (ENGR 651). 3, 6 or 9 hours per quarter. Maximum total allowed is 30 hours. Total: 48 SCH of courses + 18 SCH of Research & Dissertation = 66 SCH. [-]