Hydrostatics and stabilityLaajuus (7 cr)
Code: 5031334
Credits
7 op
Objective
The student is able to calculate the floating position and the initial stability of a ship, both manually and with a computer program. The student is able to avoid the dangers related to floatability and stability in her/his design work. The student can analyze stability- related problems, such as why the Vasa, the Titanic, the Estonia and the Costa Concordia were destroyed. The student knows how to apply the stability rules and regulations in her/his design work.
Content
The focus in the Hydrostatics and Stability - course is in the basics of ship floating position and stability, and their impact on safety. Examples are analyzed manually and with computer programs based on lines drawings and hydrostatic calculations.
Enrollment
14.12.2024 - 13.01.2025
Timing
13.01.2025 - 25.04.2025
Number of ECTS credits allocated
7 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Teaching languages
- Finnish
Teachers
- Pia Tulimaa
- Kai Saarinen
Teacher in charge
Pia Tulimaa
Groups
-
KMMMODLaivanVakavuusJaRungonSuunnittelu
Objective
The student is able to calculate the floating position and the initial stability of a ship, both manually and with a computer program. The student is able to avoid the dangers related to floatability and stability in her/his design work. The student can analyze stability- related problems, such as why the Vasa, the Titanic, the Estonia and the Costa Concordia were destroyed. The student knows how to apply the stability rules and regulations in her/his design work.
Content
The focus in the Hydrostatics and Stability - course is in the basics of ship floating position and stability, and their impact on safety. Examples are analyzed manually and with computer programs based on lines drawings and hydrostatic calculations.
Materials
Literature:
For example Ship Stability, Klaas Van Dokkum
Teaching methods
The learned theory will be used to solve calculations and exercises. Active participation in the course and to the given calculations and exercises is expected for a good success in the course.
Exam schedules
Exam 24.4.2025
Retake 1 exam 19.5.2025
Retake 2 exam 2.6.2025
Student workload
Ship hydrostatics and stability, 7 cr, 187 h
Content scheduling
Principles of stability, boyancy and weight, transversal stability, free surface effect, moving cargo, dynamic and intact stability, longitudinal stability, damage stability, NAPA Designer.
Evaluation scale
H-5
Assessment methods and criteria
Exam 70% of the course points, 33% of the exam points are needed to pass the course.
The modeling of the ship hull and calculation of the hydrostatics form 20% of the course points. The exercise shall be passed to pass the course.
The inclining test forms 10% of the course points. The exercise shall be passed to pass the course.
In addition home work allows to collect extra points. These points cannot help in passing the course but can raise the course grade.
Grades:
33% = 1 (this has to be reached without the bonus points)
41% max =2
55% max =3
70% max =4
80% max =5
max is the points from the exam + ship hull exercise + inclining test
Enrollment
09.12.2023 - 08.01.2024
Timing
08.01.2024 - 26.04.2024
Number of ECTS credits allocated
7 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Teaching languages
- Finnish
Seats
5 - 30
Teachers
- Pekka Juuti
- Kai Saarinen
Teacher in charge
Kai Saarinen
Groups
-
KMMMODLaivanVakavuusJaRungonSuunnittelu
Objective
The student is able to calculate the floating position and the initial stability of a ship, both manually and with a computer program. The student is able to avoid the dangers related to floatability and stability in her/his design work. The student can analyze stability- related problems, such as why the Vasa, the Titanic, the Estonia and the Costa Concordia were destroyed. The student knows how to apply the stability rules and regulations in her/his design work.
Content
The focus in the Hydrostatics and Stability - course is in the basics of ship floating position and stability, and their impact on safety. Examples are analyzed manually and with computer programs based on lines drawings and hydrostatic calculations.
Materials
Literature:
For example Ship Stability, Klaas Van Dokkum
Teaching methods
The learned theory will be used to solve calculations and exercises. It is recommended to participate actively in the course and to do the given calculations and excercises.
Student workload
Ship hydrostatics and stability, 7 cr, 187 h
Content scheduling
Principles of stability, boyancy and weight, transversal stability, free surface effect, moving cargo, dynamic and intact stability, longitudinal stability, damage stability, NAPA loading computer
Evaluation scale
H-5
Assessment methods and criteria
Grades:
33% = 1 (this has to be reached without the bonus points)
41% max =2
55% max =3
70% max =4
80% max =5
Enrollment
10.12.2022 - 08.01.2023
Timing
09.01.2023 - 28.04.2023
Number of ECTS credits allocated
7 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Teaching languages
- Finnish
Seats
10 - 28
Teachers
- Pia Tulimaa
- Kai Saarinen
Groups
-
KMMMODLaivanVakavuusJaRungonSuunnittelu
Objective
The student is able to calculate the floating position and the initial stability of a ship, both manually and with a computer program. The student is able to avoid the dangers related to floatability and stability in her/his design work. The student can analyze stability- related problems, such as why the Vasa, the Titanic, the Estonia and the Costa Concordia were destroyed. The student knows how to apply the stability rules and regulations in her/his design work.
Content
The focus in the Hydrostatics and Stability - course is in the basics of ship floating position and stability, and their impact on safety. Examples are analyzed manually and with computer programs based on lines drawings and hydrostatic calculations.
Materials
Literature:
For example Ship Stability, Klaas Van Dokkum
Teaching methods
The learned theory will be used to solve calculations and exercises. It is recommended to participate actively in the course and to do the given calculations and excercises.
Student workload
Ship hydrostatics and stability, 7 cr, 187 h
Content scheduling
Principles of stability, boyancy and weight, transversal stability, free surface effect, moving cargo, dynamic and intact stability, longitudinal stability, damage stability, NAPA loading computer
Evaluation scale
H-5
Assessment methods and criteria
Grades:
33% = 1 (this has to be reached without the bonus points)
41% max =2
55% max =3
70% max =4
80% max =5
Enrollment
11.12.2021 - 16.01.2022
Timing
10.01.2022 - 31.05.2022
Number of ECTS credits allocated
7 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Teaching languages
- Finnish
Seats
3 - 25
Teachers
- Pia Tulimaa
- Kai Saarinen
Groups
-
KMMMODLaivanVakavuusJaRungonSuunnittelu
Objective
The student is able to calculate the floating position and the initial stability of a ship, both manually and with a computer program. The student is able to avoid the dangers related to floatability and stability in her/his design work. The student can analyze stability- related problems, such as why the Vasa, the Titanic, the Estonia and the Costa Concordia were destroyed. The student knows how to apply the stability rules and regulations in her/his design work.
Content
The focus in the Hydrostatics and Stability - course is in the basics of ship floating position and stability, and their impact on safety. Examples are analyzed manually and with computer programs based on lines drawings and hydrostatic calculations.
Materials
Literature:
For example Ship Stability, Klaas Van Dokkum
Teaching methods
The learned theory will be used to solve calculations and exercises. It is recommended to participate actively in the course and to do the given calculations and excercises.
Student workload
Ship hydrostatics and stability, 7 cr, 187 h
Content scheduling
Principles of stability, boyancy and weight, transversal stability, free surface effect, moving cargo, dynamic and intact stability, longitudinal stability, damage stability, NAPA loading computer
Evaluation scale
H-5
Assessment methods and criteria
Two midterm exams á 12 p. possible 4 bonus points from given exercises
Grades:
33% = 8p = 1 (this has to be reached without the bonus points, the stability calculation in midterm 2 has to be right)
41% max =2
55% max =3
70% max =4
80% max =5
max = 24+4 = 28 p