[{"id":"R7016E","semesterYearStr":"HT 2025","data":{"paragraphMap":{},"kontaktPersonList":[{"uid":"andreasj","mail":"andreas.johansson@ltu.se","pnr":"","phone":"2334","surname":"Johansson","givenName":"Andreas","name":"Andreas Johansson","active":true,"sokbar":true}],"termin":null}},{"id":"R7016E","semesterYearStr":"HT 2026","data":{"paragraphMap":{"besk_ing":{"kod":"besk_ing","rubrik":{"en":"Ingress","sv":"Ingress"},"html":false,"text":{"en":"How does an epidemic spread, why does a pendulum swing, and is it possible to predict how boiling water moves? All of these are examples of dynamic systems that can be described with equations.","sv":"Hur sprids en epidemi, varför svänger en pendel och går det att förutsäga hur kokande vatten rör sig? Allt detta är exempel på dynamiska system som kan beskrivas med ekvationer."}},"besk_text":{"kod":"besk_text","rubrik":{"en":"Description","sv":"Beskrivning"},"html":true,"text":{"en":"<!--)%(*-->In this course we learn how to formulate these equations for a variety of different types of systems. We learn methods for finding strange behaviors such as oscillations, instability, and chaos. We also get to try constructing computer-based simulators that mimic the systems and gain insights into what can be done with simulation and what limitations there are.","sv":"<!--)%(*--><div>\n I den här kursen lär vi oss hur man kan formulera dessa ekvationer för en mängd olika typer av system. Vi lär oss metoder för att hitta märkliga beteenden som svängningar, instabilitet och kaos. Vi får också prova att konstruera datorbaserade simulatorer som efterliknar systemen och får insikter i vad man kan göra med simulering och vilka begränsningar som finns.\n</div>\n<div>\n <br>\n</div>"}}},"kontaktPersonList":[{"uid":"andreasj","mail":"andreas.johansson@ltu.se","pnr":"","phone":"2334","surname":"Johansson","givenName":"Andreas","name":"Andreas Johansson","active":true,"sokbar":true}],"termin":{"period":null,"year":2026,"termin":"ht"}}}]