Week |
Subject |
Related Preparation |
1) |
Introduction |
|
2) |
Definition of logic, principles of reason and the essence of logic |
Course notes |
3) |
Subject-matter, aim, importance and uses of logic |
Course notes |
4) |
Short history of logic |
Course notes |
5) |
Concept, its kinds and denotations, inter-conceptual relations |
Course notes |
6) |
Predicables and categories |
Course notes |
7) |
Definition, its kinds and conditions |
Course notes |
8) |
Errors in definition, indefinables, division and classification |
Course notes |
9) |
Proposition and its kinds |
Course notes |
10) |
Modal propositions, distributivity in propositions and inter-propositional relations |
Course notes |
11) |
Reasoning, syllogism, the structure and the elements of syllogism, categorical syllogisms |
Course notes |
12) |
Reasoning, syllogism, the structure and the elements of syllogism, categorical syllogisms |
Course notes |
13) |
Hypothetical and disjunctive syllogisms, compound syllogisms, irregular syllogisms |
Course notes |
14) |
Induction, analogy, the five arts |
Course notes |
|
Program Outcomes |
Level of Contribution |
1) |
To define concepts related to the latest knowledge, tools and other scientific resources for the teaching profession, educational technology and information technologies in terms of national and international standards. |
4 |
2) |
To explain the main elements of teaching strategies, methods and techniques, material design and assessment and evaluation processes that affect the development of educational technology integration. |
|
3) |
To develop competencies related to software languages, operating systems, computer networks and computer hardware. |
|
3) |
To use the most appropriate curriculum frameworks to plan lessons and activities based on active and student-centered learning integrated with technology. |
|
4) |
To use the most appropriate curriculum frameworks to plan lessons and activities based on active and student-centered learning integrated with technology. |
|
5) |
To plan, implement and evaluate classroom activities that utilize cutting-edge technologies to foster creativity, problem solving and critical thinking using scientific methods. |
|
6) |
To build strong theoretical and applied models to develop solutions to problems that focus on systems and human development within a learning organization. |
4 |
7) |
To review, evaluate and recommend strategies for technology integration based on the interests, needs, individual differences and developmental characteristics of students in primary and secondary education. |
|
8) |
To work individually and collaboratively in a team to carry out activities related to educational technology, information technology and the teaching profession in an interdisciplinary approach. |
4 |
9) |
To effectively use and evaluate educational technologies and appropriately designed instructional models as a means of achieving and meeting learning objectives and requirements. |
|
10) |
To utilize effective metacognitive techniques to make the classroom a community of learners engaged in lifelong learning activities. |
|
11) |
To prepare trainings and projects related to educational technology for the community and to provide counseling to individuals in enhancing learning through the appropriate use of technology. |
4 |
12) |
To implement cost and time sensitive strategies to support individuals and organizations to carry out their work more effectively. |
|
13) |
To equip teachers to be pioneers and models in the application of technology for educational purposes using ethical and legal standards and to keep pace with changing technology. |
|
14) |
To investigate efficient design solutions and existing standards used today for educational technologies, curricula, innovations and outcomes related to work, school, education sector and virtual world. |
|
15) |
To gain fluency in interpersonal communication, teaching frameworks and the use of different technologies in relation to national norms and laws. |
4 |