Sisältöhaku

LEARNING OUTCOMES The course continues the development of the quantum mechanical frame-of-mind. By the end of the course, students will be able to proficiently apply the operator formalism to analyze quantum phenomena, including entanglement, measurements, and angular momentum. The course will also equip students with the skills to explore particle interactions using scattering theory. Additionally, students will master advanced approximation techniques, such as perturbation theory, to study ...

763313A-3004

Spring 2024 course will be about Energy Efficiency in Embedded Systems (5op) Goals: The student is able to use various energy efficiency design techniques, understands fundamental sources of energy consumption in nanoscale circuits and processor systems, is able to identify essential energy dissipation sources in a given system, understand algorithm and SW effect on energy and architectural transformations for low energy and is able to use these techniques in electronic system design. To lear...

521410S-3001

LEARNING OUTCOMES The course continues the development of the quantum mechanical frame-of-mind. By the end of the course, students will be able to proficiently apply the operator formalism to analyze quantum phenomena, including entanglement, measurements, and angular momentum. The course will also equip students with the skills to explore particle interactions using scattering theory. Additionally, students will master advanced approximation techniques, such as perturbation theory, to study ...

763613S-3005

Course continues the development of the quantum mechanical frame-of-mind. After the course, the student can solve different physical eigenvalue problems by using matrices, can calculate the quantum numbers of the system, and can estimate the effect of a perturbation. The student can also solve problems that arise in low-energy scattering. Additionally, the course gives an introduction to modern quantum mechanical topics such as entanglement and quantum measurements.

763313A:1

After finishing this course student understands the main quality requirements of the final mineral processing concentrate which effect on further processing in each selected case. The student knows the main economic and technical factors and limitations related to the successful process.

493607S:1

ECTS Credits 10 ECTS /266 hours of work Language of instruction English Timing Spring term of the 4th academic year Learning outcomes Upon completion of the course students should be able to: 1) use the knowledge of rock mechanics, rock drilling and blasting to make mining planning and mine designs; 2) perform better operations or improve current operations in drilling, blasting, extraction, tunnelling, and comminution; 3) understand the effect of ore recovery on mining economy and resource r...

492600S:1

Opiskelija perehtyy opintojakson aikana ortoosien (tehdasvalmisteinen/yksilöllisesti valmistettu) tarpeen arviointiin, valintaan ja suunnitteluun. Opiskelija hyödyntää ammatillisessa päättelyssä ja harkinnassa toimintaterapian käsitteellisiä malleja ja viitekehyksiä. Opiskelija saa tietoa ortoosien ja tukikaulureiden käytön tarpeista ja hyödyistä ja siihen liittyvistä haasteista sekä riskeistä. Hän osaa arvioida yksilöllistä ortoosien ja tukikalureiden tarvetta ja niiden vaikutusta asiakkaan ...

7W00CA72

After finishing this course student understands the main quality requirements of the final mineral processing concentrates which effect on downstream processing in each selected case. The student knows the main economic and technical factors and limitations related to the successful process.

493607S:2