Week |
Subject |
Related Preparation |
1) |
Course Introduction and Overview: Purpose of Level I course, Learning Objectives, Assignments, Instructional Schedule, Discussion Boards, Grading, emailing the Professor, Networking with Other Students in Course, Important Links |
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2) |
Introduction to Adult Learners: Defining characteristics, Types of Learning Classification Schemes, Scope of Adult and Vocational Education in U.S., Lifelong Learning |
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3) |
Adult Learners II: Instructional Challenges Adult Learning Barriers, Principles of adult learning, Facilitating Learning |
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4) |
Student Diversity: Understanding and Respecting Cultural Diversity, Multicultural Education and Curricular Change, Special Student Learning Needs/Mainstreaming, Older Learners, Flexible Instructional Practices |
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5) |
Learning Across the Lifespan: Learning Across the Lifespan, Contemporary Learning Theory: Information Processing Theory, Memory Models |
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6) |
Technological Literacy: Technological Literacy and the Digital Divide Internet Tutorial: Overview, Search Engines, Databases, Research Tools |
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7) |
Effective Teaching: Teaching Effectiveness Model, History of Teaching, Research on Teaching Effectiveness, Ethical Issues in Teaching |
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8) |
Becoming a Master Teacher
Overview: Essential Skills and Competencies, Teaching Students How to Learn and Think |
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9) |
Planning for Instruction: Understanding the Culture of Teaching, Curriculum Research and Development, Course Countdown, Developing a Syllabus |
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10) |
Direct Instruction: Instructional Model, Seven Steps, Planning, Lecturing and Managing Discussions |
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11) |
Instructional Media and Technology: Course Materials Preparation, Instructional Technology |
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12) |
Student Learning: Assessing Learning, Testing and Grading, Assessment vs. Evaluation, Promoting Higher Order Thinking Skills |
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13) |
Classroom Management and Discipline: Safety, Legal Responsibilities, Recordkeeping, Class Control, Problem Students, Discipline |
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14) |
Lifelong Learning: Student Motivation, Promoting Excellence, Self Esteem, and Involvement |
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Program Outcomes |
Level of Contribution |
1) |
Build up a body of knowledge in mathematics, science and Energy Systems Engineering subjects; use theoretical and applied information in these areas to model and solve complex engineering problems. |
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2) |
Ability to identify, formulate, and solve complex Energy Systems Engineering problems; select and apply proper modeling and analysis methods for this purpose.
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3) |
Ability to design complex Energy systems, processes, devices or products under realistic constraints and conditions, in such a way as to meet the desired result; apply modern design methods for this purpose. |
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4) |
Ability to devise, select, and use modern techniques and tools needed for solving complex problems in Energy Systems Engineering practice; employ information technologies effectively. |
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5) |
Ability to design and conduct numerical or pysical experiments, collect data, analyze and interpret results for investigating the complex problems specific to Energy Systems Engineering. |
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6) |
Ability to cooperate efficiently in intra-disciplinary and multi-disciplinary teams; and show self-reliance when working on Energy Systems-related problems |
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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. Write and understand reports, prepare design and production reports, deliver effective presentations, give and receive clear and understandable instructions. |
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8) |
Recognize the need for life-long learning; show ability to access information, to follow developments in science and technology, and to continuously educate oneself. |
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9) |
Develop an awareness of professional and ethical responsibility, and behave accordingly. Be informed about the standards used in Energy Systems Engineering applications. |
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10) |
Learn about business life practices such as project management, risk management, and change management; develop an awareness of entrepreneurship, innovation, and sustainable development. |
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11) |
Acquire knowledge about the effects of practices of Energys Systems Engineering on health, environment, security in universal and social scope, and the contemporary problems of Energys Systems engineering; is aware of the legal consequences of Energys Systems engineering solutions. |
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