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Simulation of charged particles motion in electrical and magnetic fields
Zavřel, Marek ; Kloc, Petr (referee) ; Aubrecht, Vladimír (advisor)
In the first part of this bachelor thesis has been explained a basic idea of plasma state. In the second part have been described charged particle motions in various configurations of electric and magnetic fields. These motions are: accelerating and deflection of charged particle by electric field, gyration in magnetic field and drift motion in crossed electric and magnetic fields. Principles of magnetic mirror and magnetic trap were described as well. In the third part have been described operating principles and manipulation with simulation program, which is the main outcome of this thesis. Simulation program draws trajectories of mentioned charged particle motions in homogenous electric and magnetic fields.
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Creation of educational material in the environment of 3D simulator
SYROVÁTKA, Radim
The aim of this piece of work was to make a teaching program concerning civil protection using interactive 3D simulator. To create this teaching material, it was important to develop a flood scenario by means of analysing various flood news. The compiled scenario was afterwards simulated by way of 3D simulator in which it was necessary to work with a script language created especially for making flood scenarios which works in Unity engine, and another programming language C# ("C sharp") was used. Questions regarding flood problems completing the whole issue were supposed to be a part of the teaching material. This eventuality was made impossible because of program developers and that is why a questionnaire method was subsequently chosen. Through this way knowledge of the students studying in the study program Civil Protection in The Department of Radiology, Toxicology and Civil Protection in University of South Bohemia in České Budějovice was found out. The results of the questionnaire survey were processed by means of Microsoft Excel 2010 program. According to Paret principle, for evaluating good awareness of the students a limit of 80% of correct answers was determined. As far as the 3D simulator is concerned it would be suitable to make some modifications regarding manipulation with people and means of transport, and also to solve problems with saving the simulated scenario as its rearrangement occured and then other required steps of the scenario were thus made impossible. Awareness of the students did not exceed the set limit of 80% of correct answers, so I suppose that the original idea to implement this issue into the teaching material would be beneficial and the topical subject would be supplemented by important information.
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Simulation of charged particles motion in electrical and magnetic fields
Zavřel, Marek ; Kloc, Petr (referee) ; Aubrecht, Vladimír (advisor)
In the first part of this bachelor thesis has been explained a basic idea of plasma state. In the second part have been described charged particle motions in various configurations of electric and magnetic fields. These motions are: accelerating and deflection of charged particle by electric field, gyration in magnetic field and drift motion in crossed electric and magnetic fields. Principles of magnetic mirror and magnetic trap were described as well. In the third part have been described operating principles and manipulation with simulation program, which is the main outcome of this thesis. Simulation program draws trajectories of mentioned charged particle motions in homogenous electric and magnetic fields.
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