Tidlegare arrangement - Side 56
"Selective Recovery of Copper from Municipal Solid Waste Incineration Bottom Ash - Recovery of Copper Using Ammonia-Ammonium Carbonate Leaching in Combination with Cementation"
Jon Arthur Borgersen will defend his thesis “Intrinsic defect dependent resistivity in semiconducting oxides” for the degree of Philosophiae Doctor at the University of Oslo, Faculty of Mathematics and Natural Sciences.
Vidar Skogvoll will defend his thesis “Symmetry, topology, and crystal deformations: a phase-field crystal approach” for the degree of Philosophiae Doctor at the University of Oslo, Faculty of Mathematics and Natural Sciences.
Classification and feature Regression for Multi-Phase Flow Regimes
Tittel: Symmetries on self-similar fractals
Vidar Skogvoll will defend his thesis “Symmetry, topology, and crystal deformations: a phase-field crystal approach” for the degree of Philosophiae Doctor at the University of Oslo, Faculty of Mathematics and Natural Sciences.
C*-algebra seminar talk by Roberto Conti (Sapienza University of Rome)
Optimization of mass spectrometry techniques for epitope characterization of the interaction between HER2 and trastuzumab
Tittel: Hermitian K-theory of Finite Fields
Tittel: Power Sum Decomposition of Ternary Sextic Forms
Tittel: Ranked-based Bayesian clustering and variable selection for high-dimensional data
"Structural and Functional Studies of Centromeric Protein CENP-T from Bombyx mori"
Tittel: Congruent numbers, elliptic curves and Heegner points
Tittel: Nonstandard Stochastic Analysis in Infinite
Halo photography: retrieval of ice crystal properties in Arctic cirrus clouds
Tittel: S-unit Attacks for Lattice-Based Cryptography
"Numerically investigating the Hall current effect on magnetic reconnection"
PhD candidate Samuel AS Welch at the Department of Biosciences will be defending the thesis "Predicting Environmental Risks from Pharmaceuticals under Future Scenarios: A Norwegian Example" for the degree of PhD.
The toolbox of algebraic manipulations that students traditionally learn to use in second-year calculus is not a good match for many applications in other disciplines, such as physics. Mastery of electromagnetism, for example, requires a geometric understanding of vector fields and their derivatives.
Furthermore, most mathematical modeling requires a robust understanding of the relationship between discrete data and its idealization as smooth mathematical objects. These applications require students to have rich concept images of differentiation and integration that go well beyond what is typically taught in second-year calculus.
This talk describes efforts at Oregon State University to help students master the use of geometric reasoning in such physical and geometric contexts, in both mathematics and physics courses. Several examples will be presented where language differences between disciplines lead to student difficulties, as will some of the methods and tools that we have developed to address them.
Alle våre studieprogram krever enten R2 eller R1/S1+S2 fra videregående skole.
Med Kunnskapsløftet LK20 endret læreplanene i matematikkfagene seg betraktelig. Hvilke forkunnskaper kan vi forvente at studentene har når de første studentene med nye læreplaner i matematikk kommer til våre studieprogrammer fra høsten 2023?
Tittel: Weil Reciprocity and Number Theory
"Tailoring functional properties of earth-abundant II-IV-nitride alloys: towards tandem solar cell applications"
Sarcopterygian Fishes from the Early Triassic of Svalbard: The Fish Niveau and Grippia Bonebed
The role of GCN2 in prostate cancer