Tidligere arrangementer

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Tor Ole Bigton Odden: 

Over the last year and a half, generative AI tools like ChatGPT have gone from niche research projects in the field of Natural Language Processing to tools that have upended whole sectors like education, software development, social science, and more.

This rapid development is partially due to the fact that these tools have, through gradual updates, developed capabilities that could not have been predicted in November 2022, like the ability to reason spatially, mathematically, and visually. Many users reasonably wonder how, and more importantly why, they work.

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Michael Doser (CERN): Seminar on Quantum Detectors for high energy physics by Michael Doser (CERN) on the 5th of March at 14.00

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Joakim Bergli (Physics, UiO): Synchronization in two-level quantum systems

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Joakim Bergli (Physics, UiO): Introduction to quantum error correction

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Henning Vinjusveen Myhrehagen: 

As of 2023, Norway has implemented a new science curriculum which explicitly includes programming as a part of education in science and mathematics. However, the curriculum documents do not provide clear-cut guidelines on how and to what extent programming should be used for science learning, and it is also unclear how far teachers have come with their implementation of programming in education.

To understand the effects of the new curriculum, we have surveyed Norwegian upper secondary science teachers to find out what affordances they see with the use of programming, and what challenges they are experiencing. 

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Morten Hjorth-Jensen (Physics, UiO): Parametric Matrix Models and Machine Learning

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Håkon Kristiansen (Hyllerås, UiO):Time-dependent many-body theories

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Jana Legerská: 

Quantum physics is becoming increasingly important as the background knowledge for the emerging quantum technologies. In the recent years, the role of quantum physics in the high school curriculum has been emphasized, too. However, the curricular documents cannot bring a complete picture of incorporating quantum physics into the school reality.

In this talk, I will present a pilot study on describing the current state of teaching quantum physics at the high schools in the Czech Republic.

I will explore what topics are typically covered in what time constraints, what are teachers' main goals in their quantum physics teaching, and how teachers feel about introducing students to quantum physics.

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Justin Wells  (SNM, UiO): Observing and understanding electron-boson interactions in solids

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Simon Cooil (SNM, UiO): Atomically Sharp and High-Density Sb Doping in Si for use in Quantum Devices

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Geir Kjetil Sandve: 

Large language models (LLMs) are now able to intelligently complement a human programmer (tools like git copilot) or even to write programming code from scratch based on a natural language description of what the code should do (tools like ChatGPT).

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Want to learn more about how to implement SCALE-UP in your own classroom? Join our workshop where you get hands on experience with SCALE-UP 

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Velkommen til det årlige juleseminaret vårt! 

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 Lisa Goodhew: 

This talk examines a set of video-recorded classroom discussions in which students spontaneously engage in sensemaking, and hypothesizes ways that instruction can encourage and support generative, spontaneous reasoning processes.

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Welcome to this conference for CompSci PhD candidates and supervisors. The conference is also open for people interested in these topics, and for the CompSci partners. 

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Elise Lockwood: 

Computational thinking and activity are becoming an increasingly important aspect of what it means to conduct scientific and mathematical work. In light of this, there is a need for mathematics education studies that examine the ways in which students engage with computational tools as they reason about scientific and mathematical concepts.

In this talk, I provide an example of how such computational activity can support the desirable mathematical practice of generalizing. I provide data from an interview with a student who engaged in generalizing activity while using Python to solve combinatorial problems.

I connect his work to the literature on generalization and suggest that there are promising avenues to pursue in leveraging computing for such mathematical practices. I conclude by framing this work within ongoing efforts to better understand the nature of computational thinking and activity for undergraduate students. 

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Hvordan mestre aktiv læring i store grupper? SCALE -UP er en metode for å få aktiv læring til å fungere i større grupper.

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Gerd Kortemeyer and Guillame Schiltz from ETA Physics will hold a seminar about IA for education. 

Gerd is Director of Educational Development and Technology at ETH Zurich, Switzerland. Dr. Guillaume Schiltz is Lecturer at the Department of Physics ETH Zurich, Switzerland. 

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Vidar Skogvoll: 

The Learning Assistant (LA) program is KURT’s program for providing group teachers at the UiO MatNat Faculty with basic pedagogy and group management skills to lead effective seminars - implementing active learning, fostering discussion and encouraging attendance.

The LA-model was developed at the University of Colorado Boulder in 2002, has been subject to several research efforts demonstrating its impact and was implemented by Tor Ole Odden at UiO in 2018. In the fall of 2023, I took over the project and have completed my first iteration of the program with complete attendance from all 17 group teachers and received positive feedback.

In this talk, I will lay out the program as it was implemented this fall, share the feedback I have received, discuss reflections that I have made, and ask for your insight on areas of improvement.

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Børge Irgens: 

When moving away from lectures, ensuring students come to class prepared to do other activities can be challenging.

In this talk, I present a case from the third-semester course FYS-1001 Mechanics at the University of Tromsø, where I have implemented a technique called the Readiness Assurance Process using individual and collaborative two-stage tests to encourage students' pre-class preparation. Utilizing data on time spent on pre-class preparation and individual and group test scores, I assess the effectiveness of this teaching strategy in ensuring student readiness.

Additionally, by analyzing recordings of group discussions, I aim to explore the learning potential of the collaborative exam stage.

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Michelle Zandieh: 

Over the past 10 years our team has developed the Inquiry-Oriented Linear Algebra (IOLA) curriculum, designed for a first course in linear algebra typically taken by students in the USA majoring in a wide variety of STEM fields. An offshoot of this team has worked with undergraduates to develop two digital games, Vector Unknown (VU) and Vector Unknown: Echelon Seas (VUES).  

After a brief overview of the projects, this talk will look at examples of tasks and student thinking that allow us to reflect together about curriculum design choices. These choices range from (a) what experientially real setting to use for a task in IOLA, to (b) whether to use a paper and pencil task versus a digital game, to (c) the affordances and constraints of seemingly small changes made in game mechanics.   

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Andreas Haraldsrud: “Make a simulation of a falling object.” “The following program should calculate the probability of getting yellow, wrinkled peas - fill in the blanks.” “Use chemical language to describe what is happening in this loop.”

Programming can be taught in various ways and depends on context. Andreas will present different methods for teaching programming in chemistry, physics, biology, geoscience and mathematics.

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Helga Margrete Bodahl Holmestad from the SINTEF Digital’s Department of Mathematics and Cybernetics. 

Helga, together with Eirik Høyehem (Helga's summer student) and Mari Lindlan (a former CS student working in the optimization group) will share with us:

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Anders Malthe-Sørenssen: Center for Interdiciplinary Education (INT-ED) brings together students from The Faculty of Humanities, The  Faculty of Social Sciences and The Faculty of Mathematics and Natural Sciences at UIO to develop students interdiciplinary competence. The centers goal is to include students in development of new interdiciplinary processes.

Anders vil give a presentation of the new Center for Excellence in Education.