Part time Masters Degree in Biological & Life Sciences in the Prince George's USA

Top Part time Master Degrees in Biological & Life Sciences in the Prince George's USA 2017

Biological & Life Sciences

In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.

When studying biological & life sciences, students learn different characteristics of natural science. Depending on the area of focus, students may study the human body, plant biology, or animal science in order to help with real-world problems.

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.

Part time Master's Degree in Biological & Life Sciences in the Prince George's in the USA

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Master of Engineering Chemical and Biomolecular Engineering

University of Maryland, A. James Clark School of Engineering
Campus Part time 1 - 5  September 2017 USA College Park

The Graduate Program in Chemical and Biomolecular Engineering offers research and education opportunities leading to the Master of Science and Doctor of Philosophy degrees. [+]

Part time Master Programs in Biological & Life Sciences in the Prince George's USA. The Graduate Program in Chemical and Biomolecular Engineering offers research and education opportunities leading to the Master of Science and Doctor of Philosophy degrees. The Department of Chemical and Biomolecular Engineering is well-equipped for graduate research in aerosol science and engineering, biochemical engineering, computational modeling, fluid mechanics and mixing, fuel cell technology, metabolic engineering and systems biology, nanoparticle technology, polymer processing and characterization, polymer reaction engineering, process control, thermodynamics and transport phenomena, and systems research. The Department maintains a distributed computing network consisting of research laboratories and a PC laboratory. Major research facilities including electron microscopy, X-ray diffraction, X-ray photoelectron spectroscopy, and NMR are coordinated through a variety of laboratories. General Requirements Before graduate courses in Chemical Engineering are attempted, the candidate must fulfill certain minimal course prerequisites either by previous experience or by taking selected undergraduate courses. These minimal prerequisites are descibed in the GPA and prerequisite policy page. Some of these prerequisites may be fulfilled by concurrent registration if necessary. No courses numbered below 400 may count towards the minimal 30 credits required for the degree. A maximum of 6 credits of 400 level courses may count towards the degree subject to prior approval by the Graduate Director. Graduate courses with an EMPM designation cannot be used to satisfy the minimum 30 hours without prior permission of the Graduate Director. All graduate students (full and part-time, on and off campus) are expected to attend all research seminars, i.e., those not specifically directed to 1st year students. Students that fail to regularly attend research seminars will receive a notice from the director of graduate studies; extreme cases can be considered insufficient progress towards degree. Exceptions to this requirement will be made on a case-by-case basis by the graduate program committee; such exceptions include off-campus students that demonstrate regular participation in an on-campus seminar series that takes place at a more convenient time, or an off-campus technical seminar series. Students granted this exception should turn in a list of seminars attended to the director of graduate students before the end of each spring and fall semester. The Department of Chemical and Biomolecular Enginering's overall expectations for all students enrolled in its graduate program are that they will: make significant scholarly contributions to the field of chemical and biomolecular engineering, which is primarily measured by publications in peer-reviewed journals; and demonstrate an ability to communicate research findings to an audience of their peers in the field of chemical and biomolecular engineering, which is primarily measured by presentations at conferences. These publications and presentations must be documented on the final page(s) of each student's written thesis. For details, see "M.S. Thesis," below. GPA The Graduate School requires students to maintain a 3.0 GPA in all courses for credit since enrollement. The Department of Chemical and Biomolecular Engineering further requires that students attain at least a 3.0 GPA in tthe four required graduate core courses–ENCH 610, 620, 630 and 640–where this GPA is computed using the letter+/- system. Typical Plans of Study In principle, a candidate fulfilling all of the General Course requirements can complete the requirements for the Master of Science degree in one year. However, it is unusual for students to complete their program in less than 3 semesters. For candidates having a previous degree in a non-Chemical Engineering technical area, a 2 to 2.5 year program is usually necessary. An example plan of study is given in the M.S. Course Requirement Advising Form (.docx). Individual plans of study will be developed upon request by the Departmental Graduate Director. [-]