Week |
Subject |
Related Preparation |
1) |
Guidelines for Design of Health Care Facilities (AIA)
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2) |
Hospital Accreditation and JCI Standards; QHA Trent Accreditation Standards
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3) |
Design Requirements for ICU, OR, X-Ray Department, PET Shielding Requirements
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4) |
"Medical Gas Pipeline System, Guidelines for Testing Medical Gases (O2, N20 and Medical Air),
Medical-surgical vacuum systems, Design of the Vacuum Pump System, Waste Anesthetic Gas Disposal"
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5) |
Clean-air Systems and Classification, Hospital clean-air zones, Airborne Infection, ISO 14644
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6) |
Particle Counting, Active/Passive Air Sampling, Isolation Rooms Design Requirements |
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7) |
Midterm Exam I
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8) |
Earth Grounding System, Isolated Power Systems and Line Isolation Monitor, Conductive Flooring |
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9) |
"Guidelines for Design of Sterilization Department, Sterilization Validation,
Sterility and Shelf Life, Bowie-Dick test, Chemical indicators, Biological indicators"
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10) |
Sterilization Techniques (EtO, Formaldehyde, Ozone, Plasma , Gamma)
Compaing EtO and Plasma sterilization techniques |
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11) |
Sterilization Department Design Guidelines, Validation in Sterilization
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12) |
Health Devices IPM System for Medical Device Performance and Safety Measurements
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13) |
Waste Management, Management of Hazardous Materials |
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14) |
Midterm Exam II |
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Program Outcomes |
Level of Contribution |
1) |
Adequate knowledge in mathematics, science and electric-electronic engineering subjects; ability to use theoretical and applied information in these areas to model and solve engineering problems. |
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2) |
Ability to identify, formulate, and solve complex engineering problems; ability to select and apply proper analysis and modeling methods for this purpose. |
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3) |
Ability to design a complex system, process, device or product under realistic constraints and conditions, in such a way as to meet the desired result; ability to apply modern design methods for this purpose. (Realistic constraints and conditions may include factors such as economic and environmental issues, sustainability, manufacturability, ethics, health, safety issues, and social and political issues, according to the nature of the design.) |
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4) |
Ability to devise, select, and use modern techniques and tools needed for electrical-electronic engineering practice; ability to employ information technologies effectively. |
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5) |
Ability to design and conduct experiments, gather data, analyze and interpret results for investigating engineering problems. |
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6) |
Ability to work efficiently in intra-disciplinary and multi-disciplinary teams; ability to work individually. |
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7) |
Ability to communicate effectively in English and Turkish (if he/she is a Turkish citizen), both orally and in writing. |
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8) |
Recognition of the need for lifelong learning; ability to access information, to follow developments in science and technology, and to continue to educate him/herself. |
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9) |
Awareness of professional and ethical responsibility. |
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10) |
Information about business life practices such as project management, risk management, and change management; awareness of entrepreneurship, innovation, and sustainable development. |
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11) |
Knowledge about contemporary issues and the global and societal effects of engineering practices on health, environment, and safety; awareness of the legal consequences of engineering solutions. |
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