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Course Outline /Schedule (Weekly) Planned Learning Activities |
| Week | Subject | Student's Preliminary Work | Learning Activities and Teaching Methods |
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1 |
Introduction of cell and its components |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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2 |
Introduction of cell organelles |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
|
3 |
Introduction of cell organelles |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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4 |
Cell wall and its secondary development |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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5 |
Cell prolifeation (amitosis, mitosis and mayosis prolifierations) |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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6 |
Introduction of plant tissues, explanation of meristematic and permament tissues |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
|
7 |
Mid term exam |
Mid term exam |
Mid term exam |
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8 |
Paranchymatic and dermal tissue types |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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9 |
Support, secretion and vacular tissue types |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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10 |
Organography (introduction of organs, plant vegatitve and generative organs) |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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11 |
Root, its definition, its properties, primer and seconder anatomical structures, root metamorphosis |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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12 |
Definition, properties and functions of stem, monocotyledon and dicotleydon stems (primer and seconder anatomical structures), stem metamorphosis |
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Teaching the lesson by using projection and lecture notes |
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13 |
Definition of flower, structure of angiospermae flower, explanation of monocot and dicot flower rings |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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14 |
Flower formulas and diagrams, ovariums positions according to the other parts of flower, symmetry and |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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15 |
Definition of seeds, monocot and dicot seed structure, active and passive distribution patterns of seeds, reproduction and reproduction types (vegeative and generative reproductions) |
Read lecture notes |
Teaching the lesson by using projection and lecture notes |
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16/17 |
Final exam |
Final exam |
Final exam |
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| Contribution of the Course to Key Learning Outcomes |
| # | Key Learning Outcome | Contribution* |
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1 |
Has knowledge about agricultural engineering as well as agronomy and breeding of field crops. |
4 |
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2 |
Determines and solves the problems related to agricultural engineering as well as agronomy and breeding of field crops. |
4 |
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3 |
Graduates gain abilty to synthetize the basic concepts related to the field crops.
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4 |
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4 |
Rrecognises problems related to agricultural engineering,makes decisions and takes initiative to solve the problems. |
4 |
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5 |
Gains knowledge about sustainable agriculture, protection of environment and natural sources, biodiversity and conservation of genetic sources. |
4 |
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6 |
Gains ability to optimize the plant production by sustainable use of natural resources. |
4 |
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7 |
Learns basic principles of breeding and biotechnology of field crops. |
4 |
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8 |
Chooses and uses modern technical equipments for the agricultural engineering applications as well as for the applications in the agronomy and breeding of field crops. |
4 |
|
9 |
Gains ability to establish suitable research experiments for the purpose and the ability to interpret its results by scientific methods. |
4 |
|
10 |
Works both individually and in a team. |
4 |
|
11 |
Internalizes the necessity of lifelong learning. |
4 |
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12 |
Has an effective and healthy communication in his fıeld and use communication technologies. |
4 |
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13 |
Improve themselves consistently by determining educational requirements in scientific, cultural and social areas depending on their abilities,besides their career development |
4 |
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14 |
Shows respect to job ethic. |
4 |
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15 |
Becomes competent in the legislation and management systems related to agricultural engineering. |
4 |
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16 |
Becomes proficient in doing, applying, managing and monitoring plans and projects about agricultural engineering |
4 |
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17 |
Evaluates the learned knowledge by analytical and critical approach. |
0 |
| * Contribution levels are between 0 (not) and 5 (maximum). |
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