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Numerical model of ultrasonic oil level sensor
Chutný, Pavel ; Bílek, Michal (referee) ; Vyroubal, Petr (advisor)
This master’s thesis verifies physical principle of ultrasound in fluids by numerical model. At first, ultrasound study is ment. In second theoretic part, diferent kind of motor oils are described. Next, equations for numerical simulation are presented. In practical part, numerical model of level sensor is examined in well-knowed fluids (water, air). Results of laboratory measurement on topic of ultrasound velocity in oil dependent on temperature are aplicated on numerical model of sensor and optimalized.
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Study of cardiomyocytes viability using confocal microscopy
Chutný, Pavel ; Svoboda, Ondřej (referee) ; Čmiel, Vratislav (advisor)
This work describes the study of cardiomyocytes viability using confocal microscopy. The theoretic introduction covers the basic principle of fluorescence together with fluoresceins in cells biology. The struction of cardiomyocytes, their selection from the lively heart and the methods of viability examination is comprised in the next part. The third topic is about confocal mikroskopy and its posibilities in cardiomyocytes imaging. In next chapters are described the experiments and their evaluating.
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Study of cardiomyocytes viability using confocal microscopy
Chutný, Pavel ; Svoboda, Ondřej (referee) ; Čmiel, Vratislav (advisor)
This work describes the study of cardiomyocytes viability using confocal microscopy. The theoretic introduction covers the basic principle of fluorescence together with fluoresceins in cells biology. The struction of cardiomyocytes, their selection from the lively heart and the methods of viability examination is comprised in the next part. The third topic is about confocal mikroskopy and its posibilities in cardiomyocytes imaging. In next chapters are described the experiments and their evaluating.
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Ultrasonic Oil Level Senzo
Chutný, Pavel
In this paper, different kinds of level sensor are described. The way of measurement of engine oil is clarified. The principle of ultrasonic senzor is explained, because own oil level senzor is based on ultrasonic wave. The best version is predicted by numerical model. Also the dependence of velocity of ultrasonic wave on oil temperature is examined.
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Numerical model of ultrasonic oil level sensor
Chutný, Pavel ; Bílek, Michal (referee) ; Vyroubal, Petr (advisor)
This master’s thesis verifies physical principle of ultrasound in fluids by numerical model. At first, ultrasound study is ment. In second theoretic part, diferent kind of motor oils are described. Next, equations for numerical simulation are presented. In practical part, numerical model of level sensor is examined in well-knowed fluids (water, air). Results of laboratory measurement on topic of ultrasound velocity in oil dependent on temperature are aplicated on numerical model of sensor and optimalized.
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Study of cardiomyocytes viability using confocal microscopy
Chutný, Pavel ; Svoboda, Ondřej (referee) ; Čmiel, Vratislav (advisor)
This work describes the study of cardiomyocytes viability using confocal microscopy. The theoretic introduction covers the basic principle of fluorescence together with fluoresceins in cells biology. The struction of cardiomyocytes, their selection from the lively heart and the methods of viability examination is comprised in the next part. The third topic is about confocal mikroskopy and its posibilities in cardiomyocytes imaging. In next chapters are described the experiments and their evaluating.
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Study of cardiomyocytes viability using confocal microscopy
Chutný, Pavel ; Svoboda, Ondřej (referee) ; Čmiel, Vratislav (advisor)
This work describes the study of cardiomyocytes viability using confocal microscopy. The theoretic introduction covers the basic principle of fluorescence together with fluoresceins in cells biology. The struction of cardiomyocytes, their selection from the lively heart and the methods of viability examination is comprised in the next part. The third topic is about confocal mikroskopy and its posibilities in cardiomyocytes imaging. In next chapters are described the experiments and their evaluating.
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