Module 1: Atoms, Molecules, and Matter (ATMO, 4.5 hp)
This module covers the fundamental concepts of atomic structure, chemical bonding, and the states of matter.
Atomic Structure: Explores the quantum mechanical model of the atom and how it explains periodicity.
Chemical Bonding: Utilizes Pauling electronegativity, Lewis structures, valence shell electron pair repulsion (VSEPR) theory, valence bond theory, and molecular orbital theory to analyse chemical bonding.
States of Matter: Examines gases, liquids, and solids through various theories and models, including gas laws, intermolecular bonding, and unit cells.
Module 2: Thermodynamics and Equilibria (TEEQ, 4.5 hp)
This module focuses on the principles of thermodynamics, and physical and chemical equilibrium.
Thermodynamics: Introduces the concepts of work, heat, internal energy, enthalpy, entropy, and Gibbs free energy. Discusses spontaneous and non-spontaneous processes, exothermic and endothermic processes, system boundaries, and process reversibility. Explores the application of thermodynamic principles to predict the feasibility and direction of chemical processes, including how energy changes influence reaction pathways and the efficiency of reactions.
Physical Equilibrium: Examines the concepts affecting phase changes in matter. Introduces solubility, molality, and colligative properties to understand the roles of solutes.
Chemical Equilibrium: Explores the dynamic nature of equilibrium in chemical reactions, Le Chatelier's principle, and the calculation of equilibrium constants.
This module covers various types of chemical reactions, electrochemistry, kinetics, and nuclear chemistry.
Reactions and Electrochemistry: Investigates the principles of acid-base equilibria, solubility, and redox reactions and their applications in designing galvanic (batteries) and electrolytic cells.
Chemical Kinetics: Analyses the factors affecting reaction rates, including the concentration of reactants/products, temperature, and catalysts.
Nuclear Chemistry: Introduces the basic concepts of nuclear particles, nuclear reactions, radioactivity, and the different types of radiation along with their applications.
Module 4: Laboratory Exercises (0001, 1.5 hp)
This module involves hands-on laboratory work and the presentation of experimental results.
Laboratory Work: Provides practical experience in conducting experiments and applying theoretical concepts.
Presentation of Results: Teaches students how to effectively communicate their findings through formal lab reports and presentations.
General entry requirements and Chemistry 1, Mathematics 3b or 3c or Mathematics C
Entry requirements
Selection
Results-National university aptitude test-Academic credits
Applicants in some programs at Umeå University have guaranteed admission to this course. The number of places for a single course may therefore be limited.
Application code
UMU-56003
Application
The online application opens 17 March 2025 at 09:00 CET.
Application deadline is
15 April 2025. How to apply
Application and tuition fees
As a citizen of a country outside the European Union (EU), the European Economic Area (EEA) or Switzerland, you are required to pay application and tuition fees for studies at Umeå University.
