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Basics of Structural Mechanics (5 cr)

Code: TX00BK08-3026

General information

Enrollment
02.05.2023 - 27.08.2023
Registration for the implementation has ended.
Timing
28.08.2023 - 17.12.2023
Implementation has ended.
Number of ECTS credits allocated
5 cr
Local portion
5 cr
Mode of delivery
On-campus
Unit
(2019-2024) School of Real Estate and Construction
Campus
Myllypurontie 1
Teaching languages
Finnish
Seats
0 - 120
Degree programmes
Civil Engineering
Teachers
Anssi Knuutila
Groups
AVOINAMK_K23-K24_TXG
AVOINAMK_K23-K24_TXG_Rakennustekniikan siltaopinnot
Course
TX00BK08

Implementation has 42 reservations. Total duration of reservations is 119 h 0 min.

Time Topic Location
Tue 29.08.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 30.08.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 31.08.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2019 Oppimistila
Tue 05.09.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 06.09.2023 time 13:30 - 16:30
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 07.09.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Fri 08.09.2023 time 12:00 - 16:00
(4 h 0 min) 		Rakenteiden mekaniikan perusteiden tukiopetus
MPA0011 Fysiikan laboratorio
Tue 12.09.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 13.09.2023 time 13:30 - 16:30
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 14.09.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
MPA1010 Metropolia-sali
Tue 19.09.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 21.09.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 26.09.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 27.09.2023 time 13:00 - 16:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 28.09.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 03.10.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 04.10.2023 time 14:00 - 17:00
(3 h 0 min) 		PERUTTU Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 05.10.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 10.10.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 11.10.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 12.10.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 25.10.2023 time 08:00 - 11:00
(3 h 0 min) 		Tentti: Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA1010 Metropolia-sali
Mon 30.10.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 31.10.2023 time 11:00 - 13:30
(2 h 30 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 01.11.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Mon 06.11.2023 time 08:00 - 11:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 07.11.2023 time 11:00 - 14:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 08.11.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 14.11.2023 time 11:00 - 14:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 15.11.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 16.11.2023 time 13:30 - 16:00
(2 h 30 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 21.11.2023 time 11:00 - 14:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 22.11.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 23.11.2023 time 13:30 - 16:00
(2 h 30 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Tue 28.11.2023 time 11:00 - 14:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Wed 29.11.2023 time 14:00 - 17:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPC5012 Oppimistila
Tue 05.12.2023 time 11:00 - 14:00
(3 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Thu 07.12.2023 time 13:30 - 16:00
(2 h 30 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA2010 Oppimistila
Mon 11.12.2023 time 08:00 - 11:00
(3 h 0 min) 		Tentti: Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA1010 Metropolia-sali
Mon 11.12.2023 time 14:00 - 15:00
(1 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA4016b Digitila
MPA4016c Digitila
Wed 13.12.2023 time 08:00 - 09:00
(1 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA4016b Digitila
MPA4016c Digitila
Wed 13.12.2023 time 14:30 - 15:30
(1 h 0 min) 		Rakenteiden mekaniikan perusteet TX00BK08-3026
MPA4016b Digitila
MPA4016c Digitila
Changes to reservations may be possible.

Objective

On completion of the course the student can:
- identify axial stress
- identify shear stress
- identify bending stress
- describe deformations
- repeat displacement
- recognise the maximum eccentricity of normal load not causing tension in a member
- repeat dimensioning of beams and columns
- solve forces of truss members
- explain the buckling of a compressed member
- explain the design of a compressed member.

Content

1. Basic assumptions of strength theory, mechanical properties of materials
2. Elastic and plastic behaviour
3. Hooke's law
4. Stress and strain distribution under axial loading
5. Stress and deformations under bending
6. Shear stresses
7. Trusses
8. Euler's formulas for slender columns
9. Dimensioning of beams and columns
10. Deformations: axial, shear, bending and caused by temperature gradient and uniform temperature change
11. Basics of torsion
12. Use computer software to check hand calculations

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

On completion of the course the student can:
- identify axial stress
- identify shear stress
- identify bending stress
- describe deformations
- repeat displacement
- recognise the maximum eccentricity of normal load not causing tension in a member
- repeat dimensioning of beams and columns
- describe forces of truss members
- describe the buckling of a compressed member
- describe the design of a compressed member.

Assessment criteria, good (3)

On completion of the course the student can:
- determine axial stress and calculate shear stress
- calculate deformation and displacement and apply bending stress
- carry out dimensioning of beams and columns
- calculate the buckling load of a compressed member and design a compressed member.

Assessment criteria, excellent (5)

On completion of the course the student can:
- apply axial stress and shear stress
- explain and calculate deformation and displacement and apply bending stress
- implement dimensioning of beams and columns
- solve and apply forces of truss members
- examine and derive the formula for buckling of a compressed member, design a compressed member.

Assessment criteria, approved/failed

On completion of the course the student can:
- identify axial stress
- identify shear stress
- identify bending stress
- describe deformations
- repeat displacement
- recognise the maximum eccentricity of normal load not causing tension in a member
- repeat dimensioning of beams and columns
- describe forces of truss members
- describe the buckling of a compressed member
- describe the design of a compressed member.

Qualifications

Statics

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