Practical physics and chemistry (5 cr)

Code: EE00EC19-3003

General information

Enrollment: 06.04.2023 - 21.04.2023
Registration for the implementation has ended.

Timing: 04.09.2023 - 15.12.2023
Implementation has ended.

Number of ECTS credits allocated: 5 cr

Local portion: 5 cr

Mode of delivery: Contact learning

Unit: Department of Forestry and Environmental Technology

Campus: Mikkeli Campus

Teaching languages: English

Seats: 20 - 36

Degree programmes: Degree Programme in Environmental Engineering

Teachers: Liisi Rajala; Reijo Vuohelainen

Teacher in charge: Liisi Rajala

Scheduling groups: Group A (Size: 20 . Open UAS : 0.); Group B (Size: 20 . Open UAS : 0.)

Groups: EEMI22SVP
Environmental Engineering, online/full-time studies

Small groups: Group A; Group B

Course: EE00EC19

No reservations found for realization EE00EC19-3003!

Objective

You know the basic phenomena, most important quantities, units, definitions and laws of fluid and solid state mechanics, thermal physics, electricity and wave motion. You can apply the concepts, for example, to calculations in fluid flow, to compute the effects of thermal expansion and to discuss different wave motions. You can study different phenomena and determine quantities experimentally. You know the operation principles of equipment commonly used in environmental measurements. You know how to interpret analysis results and how to write a consistent report.

Content

What are the basic phenomena, most important quantities, units, definitions and laws of fluid and solid state mechanics, thermal physics, electricity and wave motion?
How can you apply the concepts, for example, to calculations in fluid flow, to compute the effects of thermal expansion and to discuss different wave motions?
How can you study different phenomena and determine quantities experimentally?
What kind of methods are used to pretreat and analyse samples?
What kind of analyses and measurements are made to assess the state of the environment?
How is analytical equipment calibrated?
What factors affect the analysis result?
How to assure the quality of analytical results?

Course material

Lab experiment notes and other theory materials will be on Learn.

Study forms and methods

You will attend teaching and guidance sessions as specified in the weekly schedule.
Your study routine is determined by the scheduled group sessions and by the self-study assignments. You will do the labs in small groups.

RDI and work-related cooperation

No external co-operation on this course.

Timing of exams and assignments

To be settled at the course kick off.

Student workload

Student work load is about 135 h, consisting of 32 hours of laboratory work in small groups and 16 hours of theory sessions with the whole group. Homework, report writing takes the rest of the time.

Course part description

This course has two parts: Chemistry and Physics

Parts consist of laboratory works, self-study and reporting.

Labs are based on spring term Environmental Physics and chemistry course theory materials and beyond. Lab notes give detailed instructions of experiments and reporting.

Further information

Attendance on the laboratory sessions is mandatory.

Evaluation scale

1-5

Assessment methods and criteria

Each part (Chemistry and Physics) give the 50% of the final grade.

Lectures and laboratory exercises are collected into a lab report.
To be settled at the course kick off.

Qualifications

Environmental physics and chemistry