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Chemistry in Technology

Structure Type: Study unit
Code: IEYX0601
Type: Compulsory / Professional Studies
Curriculum: EY 2014 / 2015 / 2015V / 2017V / 2018V
KT 2018V / 2019V
Level: Bachelor of Engineering
Year of Study: 1 (2014-2015 / 2015-2016 / 2017-2018 / 2018-2019 / 2019-2020)
Credits: 4 cr
Responsible Teacher: Stén, Pekka
Language of Instruction: Finnish

Courses

Impl.Group(s)Study TimeTeacher(s)LanguageClassesEnrolment
1I-EY-1N2014-10-27 – 2015-04-30Pekka SténFinnish 2014-08-15 – 2014-10-31
2I-EY-1N2015-09-01 – 2015-12-31Pekka SténFinnish 2015-08-14 – 2015-09-20
3I-EY-1V2016-01-04 – 2016-05-21Pekka SténFinnish 2015-12-07 – 2016-01-10
4I-EY-1N2016-09-01 – 2016-12-31Pekka SténFinnish 2016-08-22 – 2016-09-19
5 2017-03-06 – 2017-04-30Onni PyhälahtiFinnish 2016-12-12 – 2017-01-16
6I-EY-1V2018-01-08 – 2018-05-26Pekka SténFinnish 2017-12-11 – 2018-01-15
8I-EY-1V, I-KT-1V2019-01-07 – 2019-05-18Pekka SténFinnish 2018-12-10 – 2019-01-14
9I-KT-1V2020-01-07 – 2020-05-16Pekka SténFinnish40 h2019-12-16 – 2020-01-14

The descriptions shown below are for the academic year: 2019-2020

Learning Outcomes

Almost all engineers, independently of their field of technology, will at some stage of their career need basic understanding of chemistry. For example, most choices of materials and corrosion prevention require chemical knowledge, as well as use and production of fuels. Acting as a foreperson in production, the engineer will be responsible of occupational safety issues including chemical hazards.

The student becomes familiar with the periodic table of the elements and classification of matter. The student will be aware of the basic concepts of chemistry and is able to solve simple problems on the topics discussed during the course.

The student will understand the importance of chemistry in the real world, and especially for environmental issues. She/he will have the ability to follow and analyse media discussion about current issues including climate change, bio-fuels and state of water bodies. The course aims to help the student to build an understanding about the environmental challenges of the field of technology. Many of the important choices concerning the future of our environment are made by design and production engineers as part of their daily work.

Student's Workload

The total amount of student´s work is 108 h, which contains 56 h of contact studies.

Prerequisites / Recommended Optional Courses

Introduction to Technical Mathematics is studied parallelly

Contents

Basics of general chemistry including the structure and states of matter, the mole and molar masses, chemical reactions, acids and bases, and electrochemistry. Some essential environmental issues and the chemical processes behind them.

Recommended or Required Reading and Other Learning Resources/Tools

Hänninen, Karppinen, Leskelä, Pohjakallio: Tekniikan kemia, Edita 2017
or Lehtonen, Lehtonen: Teknisten alojen kemia, WSOY 2008.

Mode of Delivery / Planned Learning Activities and Teaching Methods

Lectures with selected demonstrations, homework.

Assessment Criteria

Grade 1: The student knows those subjects of the course, which are necessary for the forthcoming studies and working life.

Grade 3: The student is well-abled to utilize the course contents.

Grade 5: The student is able to apply creatively the contents of the course.

Assessment Methods

Examination


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