Strength of materials structures 5031288

Open in new tab

Enrollment

01.12.2023 - 08.01.2024

Timing

08.01.2024 - 31.05.2024

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages

Finnish

Degree programmes

Degree Programme in Mechanical Engineering

Teachers

Tommi Metso

Teacher in charge

Tommi Metso

Groups

PKONTK23B
PKONTK23B
PKONTK23
PKONTK23A
PKONTK23A

Objective

After completing the course the student:
- understands the influence of inertia forces and moments to the structures

- analyze the strength of a relatively complex structures

- be able to design structures based on ultimate limit state

- be able to design shafts and buckling structures

- knows the methods to design structures under alternate stress

Content

- kinematics

- kinetics

- deflection curve formula

- torsion shaft design

- buckling

- fatique

Materials

Whole course material is available in Optima portal.

Teaching methods

The course is implemented via Flipped Learning method. All the lectures are available via links in optima Lujuusopin perusteet workspace. It is students duty to get to know the material beforehand.

International connections

Flipped learning

Completion alternatives

solving exercises independently remotely and return them admitted before the deadline.

Student workload

During the course about 15 strength of materials and 25 dynamics exercises is solved in contact hours.

Content scheduling

-Basic of kinematics and kinetics
-In this second course related to strength of materials, the student concentrates on methods to evaluate the deflections in bended beam structures. Furthermore, the shearing stresses and angular deformations and shafts under torsion are considered. Also, principles of buckling and fatigue analysis will be discussed.
Exact TIme table is available in ITslearning portals work space

Evaluation scale

H-5

Assessment methods and criteria

Passing the course (grade 1) is possible by completing remote assignments. See the learning portal for more detailed instructions. Achieving better grades requires taking the exam.

Assessment criteria, fail (0)

The total points of the exercises are not enough to pass. 40% of the points have not been achieved in the exam.

Assessment criteria, satisfactory (1-2)

The total points of the exam and assignments exceed 40%.

Assessment criteria, good (3-4)

The total points of the exam and assignments exceed 80%.

Assessment criteria, excellent (5)

The total points of the exam and assignments exceed 87%.

Open in new tab

Enrollment

01.06.2023 - 04.09.2023

Timing

01.09.2023 - 17.12.2023

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages

Finnish

Degree programmes

Degree Programme in Mechanical Engineering

Teachers

Tommi Metso

Teacher in charge

Tommi Metso

Groups

PKONTS22B
PKONTS22B
PKONTS22A
PKONTS22A
PKONTS22

Objective

After completing the course the student:
- understands the influence of inertia forces and moments to the structures

- analyze the strength of a relatively complex structures

- be able to design structures based on ultimate limit state

- be able to design shafts and buckling structures

- knows the methods to design structures under alternate stress

Content

- kinematics

- kinetics

- deflection curve formula

- torsion shaft design

- buckling

- fatique

Materials

Whole course material is available in Optima portal.

Teaching methods

The course is implemented via Flipped Learning method. All the lectures are available via links in optima Lujuusopin perusteet workspace. It is students duty to get to know the material beforehand.

International connections

Flipped learning

Completion alternatives

solving exercises independently remotely and return them admitted before the deadline.

Student workload

During the course about 15 strength of materials and 25 dynamics exercises is solved in contact hours.

Content scheduling

-Basic of kinematics and kinetics
-In this second course related to strength of materials, the student concentrates on methods to evaluate the deflections in bended beam structures. Furthermore, the shearing stresses and angular deformations and shafts under torsion are considered. Also, principles of buckling and fatigue analysis will be discussed.
Exact TIme table is available in ITslearning portals work space

Evaluation scale

H-5

Assessment methods and criteria

Passing the course (grade 1) is possible by completing remote assignments. See the learning portal for more detailed instructions. Achieving better grades requires taking the exam.

Assessment criteria, fail (0)

The total points of the exercises are not enough to pass. 40% of the points have not been achieved in the exam.

Assessment criteria, satisfactory (1-2)

The total points of the exam and assignments exceed 40%.

Assessment criteria, good (3-4)

The total points of the exam and assignments exceed 80%.

Assessment criteria, excellent (5)

The total points of the exam and assignments exceed 87%.

Open in new tab

Enrollment

02.12.2022 - 15.01.2023

Timing

01.01.2023 - 28.05.2023

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages

Finnish

Degree programmes

Degree Programme in Mechanical Engineering

Teachers

Tommi Metso

Teacher in charge

Tommi Metso

Groups

PKONTK22A
PKONTK22A
PKONTK22B
PKONTK22B
PKONTK22

Objective

After completing the course the student:
- understands the influence of inertia forces and moments to the structures

- analyze the strength of a relatively complex structures

- be able to design structures based on ultimate limit state

- be able to design shafts and buckling structures

- knows the methods to design structures under alternate stress

Content

- kinematics

- kinetics

- deflection curve formula

- torsion shaft design

- buckling

- fatique

Materials

Whole course material is available in Optima portal.

Teaching methods

The course is implemented via Flipped Learning method. All the lectures are available via links in optima Lujuusopin perusteet workspace. It is students duty to get to know the material beforehand.

International connections

Flipped learning

Completion alternatives

solving exercises independently remotely and return them admitted before the deadline.

Student workload

During the course about 15 strength of materials and 25 dynamics exercises is solved in contact hours.

Content scheduling

-Basic of kinematics and kinetics
-In this second course related to strength of materials, the student concentrates on methods to evaluate the deflections in bended beam structures. Furthermore, the shearing stresses and angular deformations and shafts under torsion are considered. Also, principles of buckling and fatigue analysis will be discussed.
Exact TIme table is available in ITslearning portals work space

Evaluation scale

H-5

Assessment methods and criteria

Passing the course (grade 1) is possible by completing remote assignments. See the learning portal for more detailed instructions. Achieving better grades requires taking the exam.

Assessment criteria, fail (0)

The total points of the exercises are not enough to pass. 40% of the points have not been achieved in the exam.

Assessment criteria, satisfactory (1-2)

The total points of the exam and assignments exceed 40%.

Assessment criteria, good (3-4)

The total points of the exam and assignments exceed 80%.

Assessment criteria, excellent (5)

The total points of the exam and assignments exceed 87%.

Open in new tab

Enrollment

02.08.2022 - 15.09.2022

Timing

01.09.2022 - 31.12.2022

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages

Finnish

Degree programmes

Degree Programme in Mechanical Engineering

Teachers

Tommi Metso

Teacher in charge

Tommi Metso

Groups

PKONTS21B
PKONTS21B
PKONTS21A
PKONTS21A
PKONTS21

Objective

After completing the course the student:
- understands the influence of inertia forces and moments to the structures

- analyze the strength of a relatively complex structures

- be able to design structures based on ultimate limit state

- be able to design shafts and buckling structures

- knows the methods to design structures under alternate stress

Content

- kinematics

- kinetics

- deflection curve formula

- torsion shaft design

- buckling

- fatique

Materials

Whole course material is available in Optima portal.

Teaching methods

The course is implemented via Flipped Learning method. All the lectures are available via links in optima Lujuusopin perusteet workspace. It is students duty to get to know the material beforehand.

International connections

Flipped learning

Completion alternatives

solving exercises independently remotely and return them admitted before the deadline.

Student workload

During the course about 15 strength of materials and 25 dynamics exercises is solved in contact hours.

Content scheduling

-Basic of kinematics and kinetics
-In this second course related to strength of materials, the student concentrates on methods to evaluate the deflections in bended beam structures. Furthermore, the shearing stresses and angular deformations and shafts under torsion are considered. Also, principles of buckling and fatigue analysis will be discussed.
Exact TIme table is available in ITslearning portals work space

Evaluation scale

H-5

Assessment methods and criteria

Passing the course (grade 1) is possible by completing remote assignments. See the learning portal for more detailed instructions. Achieving better grades requires taking the exam.

Assessment criteria, fail (0)

The total points of the exercises are not enough to pass. 40% of the points have not been achieved in the exam.

Assessment criteria, satisfactory (1-2)

The total points of the exam and assignments exceed 40%.

Assessment criteria, good (3-4)

The total points of the exam and assignments exceed 80%.

Assessment criteria, excellent (5)

The total points of the exam and assignments exceed 87%.

Open in new tab

Enrollment

11.12.2021 - 09.01.2022

Timing

09.01.2022 - 29.05.2022

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages

Finnish

Degree programmes

Degree Programme in Mechanical Engineering

Teachers

Tommi Metso

Teacher in charge

Tommi Metso

Groups

PKONTK21B
PKONTK21
PKONTK21A

Objective

After completing the course the student:
- understands the influence of inertia forces and moments to the structures

- analyze the strength of a relatively complex structures

- be able to design structures based on ultimate limit state

- be able to design shafts and buckling structures

- knows the methods to design structures under alternate stress

Content

- kinematics

- kinetics

- deflection curve formula

- torsion shaft design

- buckling

- fatique

Materials

Whole course material is available in Optima portal.

Teaching methods

The course is implemented via Flipped Learning method. All the lectures are available via links in optima Lujuusopin perusteet workspace. It is students duty to get to know the material beforehand.

International connections

Flipped learning

Completion alternatives

solving exercises independently remotely and return them admitted before the deadline.

Student workload

During the course about 15 strength of materials and 25 dynamics exercises is solved in contact hours.

Content scheduling

-Basic of kinematics and kinetics
-In this second course related to strength of materials, the student concentrates on methods to evaluate the deflections in bended beam structures. Furthermore, the shearing stresses and angular deformations and shafts under torsion are considered. Also, principles of buckling and fatigue analysis will be discussed.
Exact TIme table is available in ITslearning portals work space

Evaluation scale

H-5

Assessment methods and criteria

Passing the course (grade 1) is possible by completing remote assignments. See the learning portal for more detailed instructions. Achieving better grades requires taking the exam.

Assessment criteria, fail (0)

The total points of the exercises are not enough to pass. 40% of the points have not been achieved in the exam.

Assessment criteria, satisfactory (1-2)

The total points of the exam and assignments exceed 40%.

Assessment criteria, good (3-4)

The total points of the exam and assignments exceed 80%.

Assessment criteria, excellent (5)

The total points of the exam and assignments exceed 87%.

Strength of materials structuresLaajuus (5 cr)

Credits

Course unit description

Objective

Content

Ongoing implementations

Strength of materials structures, 5 op

Enrollment

Timing

Number of ECTS credits allocated

Mode of delivery

Unit

Campus

Teaching languages

Degree programmes

Teachers

Teacher in charge

Groups

Objective

Content

Materials

Teaching methods

Exam schedules

International connections

Completion alternatives

Student workload

Content scheduling

Further information

Evaluation scale

Assessment methods and criteria

Assessment criteria, fail (0)

Assessment criteria, satisfactory (1-2)

Assessment criteria, good (3-4)

Assessment criteria, excellent (5)

Past implementations

Strength of materials structures, 5 op

Enrollment

Timing

Number of ECTS credits allocated

Mode of delivery

Unit

Campus

Teaching languages

Degree programmes

Teachers

Teacher in charge

Groups

Objective

Content

Materials

Teaching methods

International connections

Completion alternatives

Student workload

Content scheduling

Evaluation scale

Assessment methods and criteria

Assessment criteria, fail (0)

Assessment criteria, satisfactory (1-2)

Assessment criteria, good (3-4)

Assessment criteria, excellent (5)

Strength of materials structures, 5 op

Enrollment

Timing

Number of ECTS credits allocated

Mode of delivery

Unit

Campus

Teaching languages

Degree programmes

Teachers

Teacher in charge

Groups

Objective

Content

Materials

Teaching methods

International connections

Completion alternatives

Student workload