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Municipality Finance Management Improvement
Křížová, Michaela ; Pech, Miroslav (referee) ; Lajtkepová, Eva (advisor)
Bachelor´s thesis deals with the municipality economy of Nová Buková in 2004 – 2007. The aim of this work is analyses revenue and expenditure and to evalnate the municipality economy. Principally, the first part of the work is focused on theoretical municipality knowledge in the Czech Republic, the second part of the work comprises the basic information about Nová Buková municipality, municipal office and budget operation. The third part of the work analyses and evalnates the budget revenue and budget expenditure. The last part of the work comprises the recommendation for economy effectivity improvement of the municipality.
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Municipality Finance Management Improvement
Křížová, Michaela ; Pech, Miroslav (referee) ; Lajtkepová, Eva (advisor)
Bachelor´s thesis deals with the municipality economy of Nová Buková in 2004 – 2007. The aim of this work is analyses revenue and expenditure and to evalnate the municipality economy. Principally, the first part of the work is focused on theoretical municipality knowledge in the Czech Republic, the second part of the work comprises the basic information about Nová Buková municipality, municipal office and budget operation. The third part of the work analyses and evalnates the budget revenue and budget expenditure. The last part of the work comprises the recommendation for economy effectivity improvement of the municipality.
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Nová měřící metoda tvaru konkávních zrcadel na principu digitálního zpracování Hartmanova testu
Pech, Miroslav ; Mandát, Dušan ; Hrabovský, Miroslav ; Schovánek, Petr
The theory, optical, mechanical, and software design for a special Hartmann wavefront analyzer is presented. This method is applied for the non-contact method of concave mirrors shape measurements. The so-called Hartmann test is used with the digital image reading and the fast computer data evaluation. In this method a transparent spatial modulator is used instead of binary mask. Our institute Joint Laboratory of Optics produces segmented mirrors for the Pierre Auger observatory fluorescent detector [1]. We use this method as the qualitative measuring of this spherical mirror segments. These segments are unique because they are light and ultrathin. The production of mirrors is based on standard operations commonly used in the optical industry (cutting, drilling, milling, grinding and polishing), with the difference that they are extremely thin. This fact can cause segment shape instability in the production process.
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Zkušenosti s měřením reflexních vrstev u zrcadel používaných pro projekt Pierre Auger
Pech, Miroslav ; Hrabovský, Miroslav ; Schovánek, Petr ; Křepelka, Jaromír ; Palatka, Miroslav ; Nožka, Libor ; Mandát, Dušan ; Rössler, T. ; Řídký, Jan ; Boháčová, Martina
The Pierre Auger Observatory is designed for study of the universe's high energy particles, which evolve in the high layers of the atmosphere, where an elementary particle strikes with energy above 10.sup.19./sup. eV (1.6 J!). However, there is no scientific consensus about cosmic ray origin. The Auger Observatory is projected to gather the data needed to solve that puzzle. One of the detection technique is to observe these showers by fluorescent detectors, which are able to record the cascade development where the secondary particle causes atmospheric nitrogen to fluoresce.
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