Summer Semester 2007/08
Summer Semester 2008/09
Summer Semester 2009/10
Summer Semester 2010/11
Winter Semester 2011/12
Summer Semester 2011/12
Summer Semester 2012/13
Summer Semester 2013/14
Summer Semester 2014/15
Summer Semester 2015/16
Summer Semester 2016/17
Winter Semester 2017/18
Summer Semester 2017/18
Summer Semester 2018/19
Winter Semester 2019/20
Mechanics and Strength of Materials D12304
Course content: Vectors.The basic definition and rules of Statics. Force sets, reduction, equilibriuum conditions. Calculation of string. Friction and rules of friction. Weight centers, charakteristics of flat figures. Moments of inertia, main axis, main moments of inertia. Relationships between internal forces in bending bars. Static determinable sets. Calculations of internal forces in simple and jointed beams, frames and trusses. Assumptions of strenght of materials. Structures, loads, displacements classifications. Compression and tension in the cross sections. Twisting.
Kinematics and Dynamics - Selected Issues.
Learning outcomes: Preparing to the practical using of structural mechanics and strength of materials theories in designing and exploitation of environmental engineering devices, instalations and systems.
(in Polish) Rodzaj przedmiotu
Course coordinators
Term 2013L: | Term 2009L: | Term 2012L: | Term 2016L: | Term 2018L: | Term 2015L: | Term 2014L: |
Learning outcomes
The student has ordered theoretical knowledge covering issues of solid mechanics in the basic Newtonian mechanics.
The student has ordered theoretical knowledge covering elements of strength of materials sufficient to enable the calculation of simple engineering structures
The student is able to formulate engineering problems in mechanics and strength of engineering structures and solve problems.
The student knows selected computer tools to assist in the calculation and design of engineering structures.
Student is able to use the scientific literature and information technologies in the field of engineering problems and tools for calculation and design.
The student understands the need for knowledge in the field of basic science used for raising professional competence.
Assessment criteria
lectures
Student learning outcomes, in the context of lectures, will be verified by a written pass. According to Study Regulations PB grade will be held on two dates ie .: term base - the last class in the semester and term correction - during the examination session. As part of the completion the student will have to answer the questions that will be evaluated on a scale from 2 to 5 rating for each question will depend on the completeness and correctness of the reply according to the following scale:
The correctness of the answers Appraisal
expressed as a percentage of the response given
from 90 to 100% 5,0
from 80 to 90% 4.5
from 70 to 80% 4.0
from 60 to 70% 3.5
from 50 to 60% 3.0
less than 50% 2.0
The final grade credit lecture will be an evaluation depends on the arithmetic mean of the marks obtained for each question according to the following scale
The arithmetic mean of the final rating
evaluation of the responses to include lectures
above 4.50 to 5.0
from 4.26 to 4.50 4.5
from 3.76 to 4.25 4.0
from 3.26 to 3.75 3.5
from 3.00 to 3.25 3.0
less than 3.0 2.0
exercise auditorium
Assessment Exercise:
1st Mandatory attendance - in accordance with the Rules of Study PB.
2 Written test - two per semester.
As part of the test the student will have to calculate a few questions that will be evaluated on a scale from 2 to 5 rating for each question will depend on the completeness and correctness of the reply according to the following scale:
The correctness of the answers Appraisal
expressed as a percentage of the response given
from 90 to 100% 5,0
from 80 to 90% 4.5
from 70 to 80% 4.0
from 60 to 70% 3.5
from 50 to 60% 3.0
less than 50% 2.0
The evaluation of the final test will be an evaluation depends on the arithmetic mean of the marks obtained for each question according to the following scale
The arithmetic mean of the final rating
evaluation of the responses to include lectures
above 4.50 to 5.0
from 4.26 to 4.50 4.5
from 3.76 to 4.25 4.0
from 3.26 to 3.75 3.5
from 3.00 to 3.25 3.0
less than 3.0 2.0
The final assessment of the exercises auditorium will be determined based on the weighted average of the two tests and the presence ćwiczenich:
1 Tests - Weight 0.85
2 Presence - weight 0.15
Final grade will be determined according to the following scale
Weighted Average Rating final
from 4.75 to 5.00 5.0
from 4.25 to 4.74 4.5
from 3.75 to 4.24 4.0
from 3.25 to 3.74 3.5
from 3.00 to 3.24 3.0
less than 3.0 2.0
The pass of the entire object is to get at least satisfactory ratings from the two forms of learning undertaken under this item.
Bibliography
a) basic references:
1. Strenght of materials / Nicholas Willems, John T. Easley, Stanley Theodore Rolfe. - 1981.
2. Mechanika Techniczna. Statyka i Wytrzymałość Materiałów. T.1/ Jan Misiak.- 1999.
3. Mechanika Techniczna. Kinematyka i Dynamika. T.2/ Jan Misiak.- 1999.
4. Mechanika dla niemechaników. / Roman Bąk, Alojzy Stawinoga. 2009.
b) supplementary references:
1. Mechanika techniczna./Władysław Siuta. 1962.
2. Wytrzymałość materiałów./ Stanisław Rososiński. 1962.
3. Mechanika ogólna.T.1 Kinematyka i Statyka./Szczepan Borkowski.1998
4. Zadania z mechaniki ogólnej.T.2 Kinematyka/ Jan Misiak.2009
5. Zadania z mechaniki ogólnej.T.1 Dynamika/ Jan Misiak.2009
6. Zadania z wytrzymałości materiałów./Michał E. Niezgodziński, Tadeusz Niezgodziński. 2002