GEOL0303-1

Duration

15h Th, 5h Pr

Number of credits

	Doctoral training in sciences (BMCB) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Biology of organisms and ecology) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Chemistry) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Geography) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Geology) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Mathematics) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Oceanography) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Physics) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Environmental sciences and management) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Space sciences) (Even years, not organized in 2025-2026)	3 crédits
	Doctoral training in sciences (Teaching of sciences) (Even years, not organized in 2025-2026)	3 crédits

Lecturer

Anne-Christine Da Silva

Language(s) of instruction

English language

Organisation and examination

Teaching in the second semester

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

The course will start with basic notion of magnetism and earth magnetic fields. Geological applications of magnetic remanence techniques will be assessed briefly (paleogeographic reconstructions and magnetostratigraphy). An important portion of the course will concern environmental magnetism and use of magnetic susceptibility for correlations: principle, advantages and experimental techniques.

Learning outcomes of the learning unit

Introduction to geomagnetism basics. Overview of various applications of magnetism for earth Sciences and environmental research. Main techniques to identify the origin of the magnetic signal in a rock (magnetic mineralogy).

Prerequisite knowledge and skills

Basics of magnetism from first year of science. General geology and sedimentology basics.

Planned learning activities and teaching methods

Lecture with slideshow (in the university or online). Use of laboratory devices (when possible), magnetic data processing (computer, R and/or Excel).
In some cases the course can be provided via podcast or via LifeSize or any other online platform

Mode of delivery (face to face, distance learning, hybrid learning)

Face-to-Face or distance learning if requested. Lectures and practical course B18/B20, or online (through podcast or distance learning)

Course materials and recommended or required readings

Walden, J., Oldfield, F., Smith, J. (eds.) Environmental Magnetism, a practical guide. Quaternary Research Association, Technical Guide No. 6., p139-164, 1999

Any session :

- In-person

oral exam

- Remote

oral exam AND written work

- If evaluation in "hybrid"

preferred in-person

Additional information:

Oral or written examination, at the unviersity of online depending on the situation.

Work placement(s)

Organisational remarks and main changes to the course

Contacts

Anne-Christine da Silva, Pétrologie sédimentaire, B20 Boulevard du rectorat, 15 Université de Liège, Sart Tilman 4000 Liège, Belgique / Tel: 04.3662258 ac.dasilva@uliege.be

Geomagnetism and environmental magnetism