41. Biomedical Engineer Jobs In Biomedical Engineer Job Search. Search biomedical engineer Jobs. New Search . Looking to hirebiomedical engineer employees? Post a job and recruit the most http://biomedical.engineer.jobs.monster.com/

Post a Job Here! Jobs .com Home Biomedical Engineer Jobs Biomedical Technician Jobs Biomedical Equipment Technician Jobs ... Principal Engineer Jobs Search Biomedical Engineer Jobs New Search Looking to hire Biomedical Engineer employees Post a job and recruit the most qualified Biomedical Engineer candidates today. Post your job in minutes. Get responses from Biomedical Engineer job seekers in minutes. biomedical engineer Jobs 1 to 25 of 162 Show Jobs Posted: Last 24 hours Last 3 days Last 7 days Last 14 days Last 30 days Last 60 days All Jobs Page 1 of 7 View: Brief Detailed Date Job Summary Company Location Jun 4 Clinical Engineer We are one of the leading manufactures of medical products for the electrotherapy of the heart. We have an opportunity for a Clinical Engineer located at our U.S. BIOTRONIK, INC. Headquarters, near Po ...[ more Job Type: Employee Job Status: Full Time Biotronik Microsystems Engin. US-OR-Portland Jun 4 ASSOCIATE PRODUCT DEVELOPMENT ENGINEER The primary purpose of this position is to assist in the design, testing, and technical documentation for the feasibility, construction and production process of new and/or changed medical products. Q ...[ more Career Level: Experienced (Non-Manager) Education Level: Bachelor's Degree Job Type: Employee Job Status: Full Time Job Shift: First Shift Wilson-Cook Medical Inc.

42. Biomedical Engineering - Degree In, Faculty Of Science And Engineering, Flinders Degree in biomedical engineering course information, Science and Engineering,Flinders University, Adelaide, Australia, Adelaide Science, new science http://www.scieng.flinders.edu.au/courses/engineering/biomedical/

Fast Facts About the course What is Biomedical Engineering? Career opportunities What will I study? Why study at Flinders? Entry requirements Australian students International students What background is required? Credit transfer opportunities ... Apply now More about Biomedical Engineering Professional recognition Related research activities Biomedical Engineering on the Web Course rule and topics ... Other Flinders courses Biomedical Engineering Bachelor of Science / Bachelor of Engineering (Biomedical) - BSc/BEng(Biomed) Fast Facts Course level: Undergraduate Course length: Five years full-time or equivalent part-time. Taught on-campus at Flinders. Available to Australian and international students. Prerequisites: Mathematical Studies and Physics, as well as assumed knowledge of SACE Stage 2 Chemistry. SATAC Code: Cutoff score for entry - Tertiary Education Rank (TER) Top of page What is Biomedical Engineering? Engineers solve problems and design and build systems and equipment that benefit everyone in the community. Biomedical engineers are people-oriented. They integrate engineering with medicine and nature to solve health-related problems and enhance our quality of life, often working in multi-disciplinary teams with medical specialists.

43. SEL Resources: Biomedical Engineering Research Guide biomedical engineering Research Guide. Subject icon ( ). Additional biomedicalengineering databases are available on the SEL Databases page. http://www.lib.virginia.edu/science/guides/s-biom.htm

General Information Resources Engineer's Library Blueprint Subject Guides ... Satellite Libraries Biomedical Engineering Research Guide Subject Librarian: Heidi Dodson I'd like to schedule a Research Tutorial Databases/Indexes Web Resources Go To Book Indexes Conference Paper Indexes Upcoming Conferences Index Current Awareness Services ... Reference Sources Go To Biomedical Engineering Department Return To Subject Guides Menu Engr and EnviSci Library SEL Homepage Recommended Reference Works McGraw-Hill Dictionary of Scientific and Technical Terms Biomedical Technology and Devices Handbook Biomedical Engineering Handbook CRC Handbook of Chemistry and Physics Encyclopedia of Life Sciences McGraw-Hill Multimedia Encyclopedia of Science and Technology Scientific and Technical Acronyms, Symbols and Abbreviations Databases / Indexes Book Indexes Search these databases for books. VIRGO Information on over 4 million books, journals, and other items held in the University of Virginia's libraries, including business, health sciences, and law. Canada Institute for Scientific and Technical Information Catalogue Search for books, technical reports, journals and conference proceedings in all areas of science, engineering, health sciences and agriculture.

44. Next Wave -- Sign In biomedical engineering BY MELISSA M. MERTL UNITED STATES 4 DECEMBER1998. Next Wave takes a look at the biomedical engineering boom. http://nextwave.sciencemag.org/cgi/content/full/1998/12/03/1

You do not have access to this item: Full Text : Mertl, Biomedical Engineering: *Feature Index*, Next Wave You are on the site via Free Public Access. What content can I view with Free Public Access If you have a personal user name and password, please login below. Science's Next Wave Sign In Options For Viewing This Content User Name Password this computer. Help with Sign In If you don't use cookies, sign in here Join AAAS and subscribe to Science for free full access. Sign Up More Info Subscribe to Science's Next Wave Sign Up More Info Site Pass 24 hours for US $10.00 from your current computer Regain Access to a recent Site Pass purchase Access through your Society More Info Need More Help? Can't get past this page? Forgotten your user name or password? AAAS Members activate your FREE Subscription Sponsored Access through your Society Some organizations have sponsored access to Science's Next Wave for their members. Check the list below to see if your society has sponsored access. If so, select your organization's name and click the Sign In button to have your access validated.

45. UTK-MABE ~ Homepage The Mechanical, Aerospace and biomedical engineering (MABE) Department offersfour programs Mechanical Engineering (ME), Aerospace Engineering (AE http://www.engr.utk.edu/maes/

University Links About the University Academic Programs Administration Libraries Research Support UT The University System A-Z Index WebMail Dept. Directory Select type of search People Search Campus Search System Search Mechanical, Aerospace and Biomedical Engineering Department MABE Homepage Welcome Undergraduate Program Graduate Program ... Other UTK Info... MABE Department Homepage Welcome to the MABE Department's Web site. On this page is some basic information on the MABE department. Please peruse our site and get in-touch with us if you have any questions. If you are new to our site, or to engineering in general, you might ask "What do Mechanical, Aerospace and Biomedical Engineers do?" The trademarks of mechanical engineering are: 1) power generation and 2) power transmission. The origin of modern day mechanical engineering goes back to James Watt and the steam engine. Today, ME's are more interested in: steam turbines, gas turbines, internal combustion engines and hybrid electric vehicles. Because of the broad background in the applied sciences, ME's are found in nearly every industry and at all levels of engineering and management. Aerospace engineering deals with both aircraft and space systems. The curriculum includes courses on airplane performance, aerodynamics, compressible flow, aerospace propulsion, structures, and astronautics. During their senior year, students participate in a capstone design project on a topic that they help to choose. Recent projects have included the design of both civil and military aircraft as well as the design and construction of a working hybrid rocket engine. Employment opportunities have been very good, with graduates from recent classes going to work for Boeing, Honeywell, Lockheed-Martin, and China Lake Naval Air Warfare Center.

46. BostonWorks - Biomedical Engineer Jobs In Greater Boston biomedical engineer. biomedical engineer Jobs. EXACT MATCHES, 1, BiomedicalEngineer. Draper Laboratory Cambridge, MA. 2, biomedical engineer. http://bostonworks.boston.com/browse/jobs/engineer_biomedical.shtml

SEARCH JOBS: Advanced Search Employer Login Post a Job HR Center ... Career Fairs Health - 6/22 Open Houses News Employer Info. The Job Blog ... Salary Wizard Biomedical Engineer See also: Biochemist Chemical Engineer Chemical Engineer Engineer ... Engineer , and Validation Engineer Job Seeker Resources: Staffing Firms The Boston Globe The New York Times and the Web Biomedical Engineer Jobs EXACT MATCHES Biomedical Engineer Draper Laboratory - Cambridge, MA Biomedical Engineer Draper Laboratory - Cambridge, MA Biomedical Engineer Draper Laboratory - Cambridge, MA CLOSE MATCHES Process Engineer Acambis Inc. - Canton, MA Permitting Specialist Aggregate Industries - Saugus, MA Automation / Lims Engineer Altana Research Institute (ari) - Waltham, MA Research Scientist III Amgen - Cambridge, MA Facilities Coordinator Antigenics - Lexington, MA Medical Informatics Specialist - Contractor Opportunity Ardais Corporation - Lexington, MA 02453 System Administrator Ardais Corporation - Lexington, MA 02421 Environmental Health and Safety Engineer Specialist ArQule, Inc. - Woburn, MA Environmental Health and Safety Engineer Specialist ArQule, Inc. - Woburn, MA

47. The Future Of Your Discipline - Biomedical Engineering Prognosis Positive for biomedical engineering Grads. by Shayna Sobol. What makesa biomedical engineer so valuable, Kelso says, is that they understand the http://www.graduatingengineer.com/futuredisc/biomed.html

Choose Topic Home Search Jobs Post Jobs Resume Help Regional Job Markets Interview Help Company Profiles Salary Negotiation Entry Level Salaries Your Discipline Career Profiles Ask Dr. Job Intl. Insights Pure Procrastination Tutorials Quotes Industry Focus Minority Issues Women in Tech Organizations Graduate School Features Archive News GECC Magazine Advertising Site Map Full Site Feature Articles Minority Issues Women In Technology Career Profiles Companies Your Discipline Ask Dr. Job International Insights Graduate Schools Industry Focus Job Markets Organizations Pure Procrastination About GE The Future of Your Discipline Resources Career Profiles Organizations Minority Issues Women in Technology ... Quotations Articles Feature Articles Higher Education Graduate School The Job Hunt Company Profiles Regional Job Markets Entry Level Salaries Search Jobs Graduating Engineer in Print About GE Magazine This Month in Print Prognosis Positive for Biomedical Engineering Grads by Shayna Sobol The employment outlook for biomedical engineering graduates is, in a word, good. So say three professors who are tops in the field, from Northwestern University in Evanston, Ill., to Clemson University in South Carolina. "The outlook is good and getting better as employers recognize the value of the specialty of biomedical engineering," notes Dr. Scott Delp, associate professor of biomedical engineering and rehabilitation at Northwestern University, as well as a research scientist at the Rehabilitation Institute of Chicago. "The more biomedical engineers who go out into industry, the more I see that trend continuing."

48. Joint Graduate Program In Biomedical Engineering The typical biomedical engineer will work in a team environment which may includephysical scientists and engineers, clinicians, and life scientists. http://www8.utsouthwestern.edu/utsw/home/education/bioengineering/

Advanced Search document.write(hashTable['Home'].parentMenu) //Second level child document.write(hashTable['Graduate School of Biomedical Sciences'].subMenu) Home Education Graduate School of Biomedical Sciences Degree Programs Joint Graduate Program in Biomedical Engineering UT Southwestern BME Home Page Admissions Courses Degree Plans ... BME at UT Arlington Home Page Joint Program in Biomedical Engineering Program Chairs: Peter P. Antich, Ph.D. (UT Southwestern) Khosrow Behbehani, Ph.D. (UTA) The University of Texas Southwestern Medical Center at Dallas The University of Texas at Arlington 5323 Harry Hines Blvd. Dallas, Texas 75390-9058 Tel: 214.648.2503 Fax: 214.648.2991 Post Office Box 19138 Arlington, Texas 76019 Tel: 817.272.2249 Fax: 817.272.2251 Email: bme@utsouthwestern.edu bme@uta.edu Biomedical Engineering is the application of engineering principles and methods to define and solve problems in medicine and biology. Students choose the biomedical engineering field to be of service to people, for the challenge of working with living systems, and to apply advanced technology to problems of health care delivery. Satisfying biomedical engineering careers can be found in industrial, health care, academic, private laboratory, and government settings. The typical biomedical engineer will work in a team environment which may include physical scientists and engineers, clinicians, and life scientists. Administrative procedures at the two schools follow one set of academic instructions for both campuses. A mechanism was established to transfer grant funds for faculty and student services between campuses which further enhanced the research collaboration. Students and faculty may now do research on either campus, thereby taking advantage of funding sources and research facilities, and enhancing the effectiveness of research training. Strong interactions are provided for biomedical engineering students with clinical and basic life science departments.

49. Biomedical Engineering Programs From DeVry University Work towards a successful career in biomedical engineering with the help of DeVryUniversity. A growing demand for biomedical engineering technologists. http://www.devry.edu/biomedical.html

Discover the rapidly growing biomedical engineering career field at DeVry University If you are interested in biomedical engineering, you should find out more about the new DeVry Biomedical Engineering Technology (BMET) degree. This biomedical engineering program is designed to equip graduates with the skills, knowledge and capabilities to succeed in this growing career field. A growing demand for biomedical engineering technologists As the health care field and technology's role in diagnostic, therapeutic and research activities continue to expand, so too will the need for biomedical engineering professionals. These technologists, with a foundation level understanding of biological processes and strong skills in computer software and hardware, are essential to this rapidly growing career field. Biomedical technologists analyze and solve biological and medical technology problems to meet today's growing healthcare demands. Their responsibilities include working with physicians, therapists and other technicians in the design, construction, implementation and maintenance of medical devices, test equipment and rehabilitation engineering in a variety of environments. These include in-patient and rehabilitation hospitals and clinics, medical diagnostic and therapeutic development and manufacturing, biotech companies, government agencies and universities as well as other learning centers. The DeVry BMET program is designed for successful careers The DeVry University BMET program is designed to ensure that biomedical technology graduates will be able to handle a wide scope of often complicated responsibilities. DeVry students learn how to conduct experiments involving electronic systems using modern test equipment, and interpret and use test results to improve products or methodologies. Students gain the skills needed to create and implement high level programs in support of technical activities. They also learn how to use principles of science, mathematics and bioengineering to design, implement, and evaluate hardware and software solutions to bioengineering problems.

50. Biomedical Engineering biomedical engineering. biomedical engineering Regulatory issues arenever far from the mind of a biomedical engineer. To satisfy http://www.fact-index.com/b/bi/biomedical_engineering.html

Main Page See live article Alphabetical index Biomedical engineering Biomedical engineering is a discipline concerned with the development and manufacture of prostheses, medical devices, diagnostic devices, drugs and other therapies. It is more concerned with biological, safety and regulatory issues than other forms of engineering . It may be defined as "The application of engineering principles and techniques to the medical field". Most biomedical devices are either inherently safe, or have added devices and systems so that they can sense their failure and shut down into an unusable, thus very safe state. A typical, basic requirement is that no single failure should cause the therapy to become unsafe at any point during its life-cycle. See safety engineering for a discussion of the procedures used to design safe systems. Many biomedical devices need to be sterilized . This creates a unique set of problems, since most sterilization techniques can cause damage to machinery and materials. Most biomedical devices are completely tested. That is, every line of software is executed, or every possible setting is exercised and

51. Biomedical Engineer Constructs Illuminating Nanoparticles For Medical Imaging An A biomedical engineer at Emory University and the Georgia Institute of Technologyhas developed a new class of biosensors that can recognize and detect http://www.eurekalert.org/pub_releases/2003-03/euhs-bec032103.php

Public release date: 27-Mar-2003 Contact: Holly Korschun hkorsch@emory.edu Emory University Health Sciences Center Biomedical engineer constructs illuminating nanoparticles for medical imaging and gene detection Emory/Georgia Tech innovation recognizes DNA sequences and genetic mutations NEW ORLEANSA biomedical engineer at Emory University and the Georgia Institute of Technology has developed a new class of biosensors that can recognize and detect specific DNA sequences and genetic mutations in laboratory experiments. The technology could lead to a new method of cancer detection or drug development. Dr. Shuming Nie, professor of biomedical engineering in the Coulter Department of Biomedical Engineering at Emory and Georgia Tech, described his research at the 225th National Meeting of the American Chemical Society on March 27. Dr. Nie constructs the nanosensors, which he calls "smart nanoparticle probes," by attaching short pieces of DNA (oligonucleotides) to 2.5-nm gold nanocrystals, which serve both as scaffolds and as "quenchers" for fluorescence. The oligonucleotide molecules, which form into an arch-like shape, are labeled with a fluorescent dye at one end and a sulfur atom at the other end. When a nanoparticle probe binds to its target molecule, an energy transfer causes the quencher to be suppressed and the particle to illuminate. Dr. Nie believes the new nanoparticle probes will be more effective than conventional molecular beacons because their unique shape is better suited to binding with target molecules, and because their fluorescence changes very little with changes in temperature.

52. National Heart, Lung, And Blood Institute (NHLBI) National Announcement Number HL04-0011. Position Title HSA / biomedical engineer.Series and Grade GS-601/858-12/13/14. Appointment Type(s), Permanent. http://careerhere.nih.gov/CHPublic/HRShowVac.taf?&VACANCY_uid1=15432

53. Engineering Education Service Center - Biomedical Engineering Booklet Is There a biomedical engineer Inside You? A Student s Guide To Exploringbiomedical engineering. Featured Are · What is biomedical engineering? http://www.engineeringedu.com/store/minibme.htm

Consulting Services Presentations and Workshops Publications Advertise ... Gifts for Engineers Is There a Biomedical Engineer Inside You? A Student's Guide To Exploring Biomedical Engineering Author: Celeste Baine Pub Date: 10/2000 Booklet, $5.95, 5.5 x 8.5, 16 pages Subject Area: Engineering Career Reference List Price: $5.95 Sale Price! $4.95 Set of all 6 Booklets Is There a Materials Engineer Inside You? Is There a Mechanical Engineer Inside You? Is There an Electrical Engineer Inside You? ... Is There a Civil Engineer Inside You? Featured Are: · What is biomedical engineering? · Includes sub-divisions of biomedical engineering such as clinical, rehabilitation, genetic, biomechanical, bioelectrical and biochemical engineering. · Salary Information · Colleges of Engineering for Biomedical Engineering with their areas of specialization · Major Areas of Employment · Biomedical Engineering Societies 100% Safe Shopper Site. Engineering Education Service Center P.O. Box 70326 Eugene, OR 97401

54. IEAust - About Us - Colleges - Biomedical - About Us The biomedical engineer requires adjunct knowledge of human biology and the medicalprocess, to enable competent research, education and practice in one or http://www.ieaust.org.au/about_us/colleges/biomedical/

About Us Membership Careers Events ... Contact Us Colleges SEARCH OUR SITE: Biomedical About Us What's On Publications Issues ... Contact Us Welcome to the Biomedical College http://www.smbe.asn.au/ State group information and events can be accessed through this central site. NEWS World Congress 2003 IFMBE News Deligates register for WC2003 David Dewhurst Award 2003 The College Board awarded the 2003 David Dewhurst Award to Mr Lawrence Knuckey. The Award is made annually for outstanding contribution to the field of Biomedical Engineering. The Immediate Past Chair of the College Board, Mr Michael Flood, presented Mr Knuckey with the Award at the closing ceremony of the World Congress in Sydney on the 28th August 2003. Mr Knuckey was the founder of the first formal Biomedical Engineering department in Melbourne and instrumental in the development of four fundamental standards used by Clinical Engineers. Mr Knuckey is both Nationally and Internationally respected for his continued work in the Standards development process. Mr Knuckey is also involved in various mentoring and educational activities within Victoria and across the Country. Virtual Surgery - Seeing into the Future On the 19th March, the Team Leader of e-Health from the CSIRO presented a talk on their work relating to Virtual Surgery at the Newcastle Division of Engineers Australia. A report on the talk can be downloaded

55. UnderGraduate Programs materials to place in the human body has been practiced for over 100 years, but itremains as one of the most difficult tasks faced by the biomedical engineer. http://www.pime.iit.edu/undergrad_programs.html

Of interest to Undergraduate Program Mission Areas of Specialization Biomedical Engineering at IIT Biomedical Engineering Curriculum ... Undergraduate BME Course Descriptions Mission The mission of the biomedical engineering undergraduate program at IIT is to educate people from all countries in the fundamentals of biomedical engineering. This foundation consists of a broad exposure to the chemical, mathematical, physical and biological sciences, coupled with the appropriate technical and engineering skills to be able to fill diverse professional roles in industry, graduate school and the medical professions. TOP Biomedical Engineering at IIT Biomedical engineering is an interdisciplinary major in which the principles and tools of traditional engineering fields, such as mechanical, materials, electrical, and chemical engineering are integrated with the chemical, physical and biological sciences to be applied for a better understanding of physiological processes in man or towards the solution of basic medical problems. Engineering will continue to play an increasingly important role in advancing medical treatment, in developing biotechnology and in improving health care delivery. By its very nature, bioengineering is broad and requires a broad and integrated foundation in the physical, chemical, mathematical and biological sciences.

56. Research Areas In Biomedical Engineering biomedical engineering Research Facilities. The biomedical engineer is a health careprofessional, a group which includes physicians, nurses, and technicians. http://www.engr.wisc.edu/bme/research/

Home Research Areas RELATED LINKS Biomedical Engineering Research Facilities Biomedical engineering combines engineering expertise with medical needs for the enhancement of health care. It is a branch of engineering in which knowledge and skills are developed and applied to define and solve problems in biology and medicine. Students choose the biomedical engineering field to be of service to people; for the excitement of working with living systems; and to apply advanced technology to the complex problems of medical care. The biomedical engineer is a health care professional, a group which includes physicians, nurses, and technicians. Biomedical engineers may be called upon to design instruments and devices, to bring together knowledge from many sources to develop new procedures, or to carry out research to acquire knowledge needed to solve new problems. Some of the research areas within the field of biomedical engineering at the University of Wisconsin-Madison are bioinstrumentation, biomechanics, biomaterials, medical imaging, biomechanics, bioMEMS, rehabilitation and augmentation, systems physiology, and tissue engineering. Bioinstrumentation is the application of electronics and measurement principles and techniques to develop devices used in diagnosis and treatment of disease. Examples are the electrocardiogram, cardiac pacemaker, blood pressure measurement, hemoglobin oxygen saturation, kidney dialysis, and ventilators.

57. Biomedical Engineering Student Design Consortium biomedical engineering Student Design Consortium. biomedical engineeringstudents presenting design projects. biomedical engineering http://www.engr.wisc.edu/consortia/bme-sdc/

Home Directories Consortia BME-SDC Biomedical Engineering Student Design Consortium Biomedical engineering students presenting design projects 32K JPG CONNECTING YOUR COMPANY WITH INNOVATIVE STUDENTS The Biomedical Engineering Student Design Consortium allows you to provide real world design challenges in medicine and biology for students to resolve through innovative engineering solutions. Design projects provide biomedical engineering students with hands-on experiences that stimulate their technical competencies and help them acquire the practical design skills your company needs. Current sponsoring companies include: Datex-Ohmeda GE Medical Systems Nicolet Biomedical Your company is cordially invited to sponsor a biomedical engineering STUDENT DESIGN PROJECT . See http://www.cae.wisc.edu/~bmedesgn/ for information about student design projects. More descriptions of student projects are shown on the December 2001 design course poster session webpage. MEMBERSHIP BENEFITS Introduce innovative students to your industry Student Design Projects: Sponsor a biomedical engineering student project for your company. A select student group will work on a client-based biomedical design project that you suggest under the auspices of a faculty member.

58. Biomedical Engineering - Wikipedia, The Free Encyclopedia biomedical engineering. From Wikipedia, the free encyclopedia. Regulatoryissues are never far from the mind of a biomedical engineer. http://en.wikipedia.org/wiki/Biomedical_engineering

59. Biomedical Engineer biomedical engineer. Build biotic hands, arms, or legs. Education A fouryear college degree is needed for biomedical engineering work. http://www.engineergirl.org/nae/cwe/egcars.nsf/Web - Career Lookup/CGMH-4TN38D?o

60. How Do I Become A Biomedical Engineer? biomedical engineering. COMBINING ENGINEERING AND MEDICAL SCIENCE.How do I become a biomedical engineer? Monash University http://www.ecse.monash.edu.au/centres/mucbe/AboutBioEng/bioeng3.html

Biomedical Engineering COMBINING ENGINEERING AND MEDICAL SCIENCE How do I become a Biomedical Engineer? Monash University has the greatest selection of biomedical engineering programs of any university in Australia. The Engineering and Science faculties offer four different BSc (Medical Science)/BE (Engine-ering) double degree programs for those wishing to enter the profession of Biomedical Engineering. The first of these BSc/BE double degrees combines a BSc (Physi-ology) with a BE in Electrical and Computer Systems Engineering and is intended for engineers with an interest in medical instrumentation, medical imaging, medical informatics and microprocessor-based medical devices. The second combines a BSc (Material Science and Physiology) with a BE in Materials Engineering, which is intended for engineers interested in biomaterials, implantable devices and material aspects of other medical technologies. The third of these degrees combines a BSc (Physiology or Anatomy) with a BE in Mechanical Engineering. This combination will be of interest to biomechanical engineers, rehabilitation engineers and is relevant to understanding the mechanical aspects of human physiological systems. The fourth of these degrees combines a BSc (Biochemistry) with a BE in Chemical Engineering. This combination is intended to prepare engineers for a career in the new area of Biotechnology.

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