Agrotechnology KA00BW81 | Study Guide, Seamk

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Enrollment

13.11.2023 - 17.01.2024

Timing

08.01.2024 - 28.04.2024

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises

Teachers

Juha Tiainen
Roni Kuru
Jori Lahti

Student groups

MAGRO23
Bachelor of Natural Resources

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)
- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia
- Hautala, M. & Peltonen, H. 2016. Insinöörin (AMK) fysiikka
- Material appointed by the teacher

Teaching methods

- Contact teaching (20 %)
- Assignments and other independent study (80 %)

Student workload

Total workload of the course 268 h which consists of scheduled studies, laboratory studies and assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Completion of the assignments
- Laboratory exercises are obligatory.

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Enrollment

17.04.2023 - 06.09.2023

Timing

25.09.2023 - 17.12.2023

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises

Teachers

Juha Tiainen
Roni Kuru
Jori Lahti

Student groups

AGRO22A
AGRO22B

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)
- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia
- Hautala, M. & Peltonen, H. 2016. Insinöörin (AMK) fysiikka
- Material appointed by the teacher

Teaching methods

-Contact teaching
-Laboratory work
-Group assignments
-Personal assignments

Student workload

Total workload of the course is 268 h of which 66 h is contact teaching. 15 h is laboratory work and the remaining 187 hours consists of independent work on group and personal assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Completion of the assignments
- Laboratory exercises are obligatory

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Enrollment

14.11.2022 - 15.01.2023

Timing

09.01.2023 - 30.04.2023

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises

Teachers

Juha Tiainen
Roni Kuru
Jori Lahti

Student groups

MAGRO22

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)
- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia
- Hautala, M. & Peltonen, H. 2016. Insinöörin (AMK) fysiikka
- Material appointed by the teacher

Teaching methods

- Contact teaching (20 %)
- Assignments and other independent study (80 %)

Student workload

Total workload of the course 268 h which consists of scheduled studies and assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Active participation in the lessons 10 %
- Completion of the assignments 90 %
- Laboratory exercises are obligatory.

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Enrollment

16.04.2022 - 30.09.2022

Timing

26.09.2022 - 31.12.2022

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises

Teachers

Juha Tiainen
Roni Kuru
Jori Lahti

Student groups

AGRO21A

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)
- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia
- Hautala, M. & Peltonen, H. 2016. Insinöörin (AMK) fysiikka
- Material appointed by the teacher

Teaching methods

- Contact teaching (50 %)
- Assignments and other independent study (50 %)

Student workload

Total workload of the course 268 h which consists of scheduled studies and assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Active participation in the lessons 10 %
- Completion of the assignments 90 %
- Laboratory exercises are obligatory.

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Enrollment

16.04.2022 - 30.09.2022

Timing

26.09.2022 - 31.12.2022

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises

Teachers

Juha Tiainen
Roni Kuru
Jori Lahti

Student groups

AGRO21B

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)
- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia
- Hautala, M. & Peltonen, H. 2016. Insinöörin (AMK) fysiikka
- Material appointed by the teacher

Teaching methods

- Contact teaching (50 %)
- Assignments and other independent study (50 %)

Student workload

Total workload of the course 268 h which consists of scheduled studies and assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Active participation in the lessons 10 %
- Completion of the assignments 90 %
- Laboratory exercises are obligatory.

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Enrollment

19.04.2021 - 16.01.2022

Timing

24.01.2022 - 27.05.2022

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises
Open University of Applied Sciences

Teachers

Juha Tiainen
Hannu Ylinen
Jarno Arkko
Jori Lahti

Responsible person

Jukka Kauppila

Scheduling groups

Pienryhmä 1 (Size: 0. Open UAS: 0.)
Pienryhmä 2 (Size: 0. Open UAS: 0.)
Pienryhmä 3 (Size: 0. Open UAS: 0.)

Student groups

MAGRO21

Education groups

Pienryhmä 1
Pienryhmä 2
Pienryhmä 3

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)

- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia

- Material produced by the teacher

Teaching methods

- Contact teaching (25 %)
- Assignments and other independent study (75 %)

Student workload

Total workload of the course 268 h which consists of scheduled studies and assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Active participation in the lessons 10 %
- Completion of the assignments 90 %

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Enrollment

19.04.2021 - 10.10.2021

Timing

10.01.2022 - 29.04.2022

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises
Open University of Applied Sciences

Teachers

Juha Tiainen
Jori Lahti

Responsible person

Jukka Kauppila

Scheduling groups

Pienryhmä 1 (Size: 0. Open UAS: 0.)
Pienryhmä 2 (Size: 0. Open UAS: 0.)
Pienryhmä 3 (Size: 0. Open UAS: 0.)

Student groups

AGRO20A

Education groups

Pienryhmä 1
Pienryhmä 2
Pienryhmä 3

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)

- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia

- Material produced by the teacher

Teaching methods

- Contact teaching (50 %)
- Assignments and other independent study (50 %)

Student workload

Total workload of the course 268 h which consists of scheduled studies and assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Active participation in the lessons 10 %
- Completion of the assignments 90 %

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Enrollment

19.04.2021 - 10.10.2021

Timing

10.01.2022 - 29.04.2022

Credits

10 op

Teaching languages

Finnish

Degree programmes

Bachelor of Natural Resources, Agriculture and Rural Enterprises
Open University of Applied Sciences

Teachers

Juha Tiainen
Jori Lahti

Responsible person

Jori Lahti

Scheduling groups

Pienryhmä 1 (Size: 0. Open UAS: 0.)
Pienryhmä 2 (Size: 0. Open UAS: 0.)
Pienryhmä 3 (Size: 0. Open UAS: 0.)

Student groups

AGRO20B

Education groups

Pienryhmä 1
Pienryhmä 2
Pienryhmä 3

Objective

The student is able to explain in practice, theoretically and with the help of physics problem solving skills, the key features of the engine, engine progression, ground compaction, traction and the traction power of the tractor and motorized machines. The student will also be able to explain the basic structures and key features of the hydraulic and electrical systems and controls required for tractors and machines. They are able to calculate the key qualities and attributes associated with them.
The student is able to explain new trends of agrotechnology, for example in fuels.
The student will be able to present the key combustion-based heating technologies, heat pump technology, wind energy and solar energy suitable for a farm and be able to utilize an energy plan for a farm. The student is able to calculate the power, energy and efficiency characteristics of key energy forms.

Content

- operation of the engine, transmission, axles, tires, hydraulics, electrical equipment and controls.
- kinematics, Newton's laws, work, power, energy, momentum, impulse, rotational motion, mechanic states, basics of electric doctrine
- key farm energy sources, boiler types, geothermal equipment, wind turbine structure, photovoltaic systems

Materials

- Bell, B. 2008. Farm Machinery (fifth edition)

- Tiainen, R. (toim.) 2005. Maatilatalouden teknologia

- Material produced by the teacher

Teaching methods

- Contact teaching (50 %)
- Assignments and other independent study (50 %)

Student workload

Total workload of the course 268 h which consists of scheduled studies and assignments.

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

Students will be able to describe some features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment can do some simple physical calculations based on them. They recognize the basic features and requirements of electrical components and the controlling equipment. They are able to describe some the functional principles of energy systems suitable for agricultural usage. They get all assignments approved.

Assessment criteria, good (3)

Students will be able to describe the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They are able to describe the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the main parameters of them. Students have active role during the course and they get all assignments approved.

Assessment criteria, excellent (5)

Students will be able to analyse the basic features of motors, transmissions, axle systems and hydraulics used in agricultural tractors, machines and equipment and they can give reasons for their choices by using physical calculations. They can describe the features and requirements of electrical components and the controlling equipment as well as the main equipment needed in precision farming. They can analyse the functional principles energy systems suitable for agricultural usage and are, also, able to calculate the parameters of them. Students have active and analytical role during the course and they get all assignments approved.

Assessment methods and criteria

- Active participation in the lessons 10 %
- Completion of the assignments 90 %

AgrotechnologyLaajuus (10 cr)

Course unit description

Objective

Content

Assessment criteria, satisfactory (1)

Assessment criteria, good (3)

Assessment criteria, excellent (5)

Materials

Upcoming implementations

Agrotechnology, 10 op

Enrollment

Timing

Credits

Teaching languages

Degree programmes

Teachers

Student groups

Objective

Content

Materials

Teaching methods

Student workload

Evaluation scale

Assessment criteria, satisfactory (1)

Assessment criteria, good (3)

Assessment criteria, excellent (5)

Assessment methods and criteria

Agrotechnology, 10 op

Enrollment

Timing

Credits

Teaching languages

Degree programmes

Teachers

Student groups

Objective

Content

Materials

Teaching methods

Student workload

Evaluation scale

Assessment criteria, satisfactory (1)

Assessment criteria, good (3)

Assessment criteria, excellent (5)

Assessment methods and criteria

Past implementations

Agrotechnology, 10 op

Enrollment

Timing

Credits

Teaching languages

Degree programmes

Teachers

Student groups

Objective

Content

Materials

Teaching methods

Student workload

Evaluation scale

Assessment criteria, satisfactory (1)

Assessment criteria, good (3)

Assessment criteria, excellent (5)

Assessment methods and criteria

Agrotechnology, 10 op

Enrollment

Timing

Credits

Teaching languages

Degree programmes

Teachers

Student groups

Objective

Content

Materials

Teaching methods

Student workload

Evaluation scale

Assessment criteria, satisfactory (1)

Assessment criteria, good (3)