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Institute
In der Natur kommen Wassertropfen in verschiedenen Größen vor. Kleine Tröpfchen von etwa 10 μm sind üblich in Nebel und Wolken, während Regentropfen bis zu 5 mm Durchmesser erreichen können. Größere Tropfen können oszillieren, während kleinere im Allgemeinen kugelförmig sind. Offensichtlich können Wassertropfen nicht beliebig groß werden. Welche Faktoren beschränken die mögliche Größe?
Visibility enhancement and validation of segmented latent fingerprints in crime scene forensics
(2013)
Visibility Assessment of Latent Fingerprints on Challenging Substrates in Spectroscopic Scans
(2013)
The physics behind the sometimes strange effects and 'unnatural' appearance of near-infrared (NIR) photographs is discussed in terms of reflection, absorption and transmission of NIR radiation with the respective objects. Besides discussing how NIR cameras work, several visible and NIR photograph pairs are presented, which include vegetation, natural water, clouds, the sky, and humans. In addition, some physics-oriented experimental NIR images are presented which clearly demonstrate some of the basic physics behind some of these awesome sights.
Studienführer 2013/14
(2013)
Inhalt
Allgemeine Informationen 1
Willkommen auf dem Campus (FHB) 6
Unser Studienangebot auf einen Blick 9
Die drei Fachbereiche im Überblick 10
Optimale Studienbedingungen 12
Vielfältige Serviceleistungen 14
Studierende im Gespräch 17
Beratung und Betreuung 20
Besuchertage 24
Zugang zum Studium 26
Informatik und Medien studieren 28
Fachbereich Informatik und Medien 30
Applied Computer Science (B.Sc.) 31
Informatik (B.Sc.) 35
Medizininformatik (B.Sc.) 39
Digitale Medien (M.Sc.) 42
Informatik (M.Sc.) 44
Technik studieren 48
Fachbereich Technik 50
IT-Elektronik (B.Eng.) 51
Maschinenbau (B.Eng.) 55
Mechatronik/Automatisierungssysteme (B.Eng.) 60
Mikrosystemtechnik und Optische Technologien (B.Eng.) 63
Energieeffizienz Technischer Systeme (M.Eng.) 67
Photonik (M.Eng.) 70
Wirtschaft studieren 72
Fachbereich Wirtschaft 74
Betriebswirtschaftslehre, Gründen – Führen – Steuern (B.Sc.) 75
Wirtschaftsinformatik (B.Sc.) 79
Betriebswirtschaftslehre, Innovativ – Integrativ – International (M.Sc.) 82
Security Management (M.Sc.) 85
Technologie- und Innovationsmanagement (M.Sc.) 88
Wirtschaftsinformatik (M.Sc.) 90
Fernstudium/Weiterbildung 92
Lebenslang lernen 94
Berufsbegleitender Bachelorstudiengang BWL (B.A.) 95
Onlinestudiengang Medieninformatik (B.Sc.) 100
Onlinestudiengang Medieninformatik (M.Sc.) 102
Security Management (M.Sc.) 104
Studienvorbereitungskurse 106
Weiterbildung für Ingenieure 107
Studentenleben 108
Kontaktliste 112
Abkürzungsverzeichnis 116
Anfahrtsplan in Brandenburg an der Havel 119
Campusplan 118
Impressum 119
Lässt man einen Körper fallen, so beschleunigt dieser auf Meereshöhe in unseren Breiten bekanntermaßen mit etwa 9,8 m/s2. Ist es dennoch möglich, dass unter diesen Bedingungen ein Körper schneller fallen kann? Was auf den ersten Blick paradox erscheint, ist durchaus möglich, wie sich mit Hochgeschwindigkeitsvideos eindrucksvoll belegen lässt.
RMOD-K Tyre model Family
(2013)
Mitarbeiterorientierte Personalpolitik : wie Krankenhäuser attraktive Arbeitgeber werden können
(2013)
A cone of light appears in a tank of water when a laser pointer shines through the water onto a white piece of paper upon which the tank is sitting. We describe how students can understand the origins of this cone by constructing multiple explanations, then proposing and designing experiments to test their explanations. This process is the foundation of the Investigative Science Learning Environment (ISLE) framework, designed to engage students in the reasoning activities similar to those that physicists use to construct and apply new knowledge. We describe typical student ideas and provide a list of equipment and suggestions for facilitating student exploration relating to optics. We also explain the formal physics behind the phenomena that are involved in the experiment. Finally, we suggest how the ISLE framework can be used to help instructors find problems and experiments that engage students in devising and testing multiple explanations.
Leichtgewichtige Werkzeuge zur Unterstützung von Kooperation und persönlichem Wissensmanagement
(2013)
Die visuelle menschliche Wahrnehmung in andere Spektralbereiche zu erweitern – dafür gibt es viele, technisch sogar recht einfache Möglichkeiten. Insbesondere die Infrarotkameras haben sich für Wellenlängen unter 15 µm zu hervorragenden quantitativen Messinstrumenten entwickelt. Zum Einsatz kommen sie in der Grundlagen- und angewandten Forschung sowie zunehmend auch in der Lehre der Physik auf Hochschul- und Schulniveau.
Rohe Eier oder wassergefüllte Christbaumkugeln platzen beim Eindringen des Projektils einer Luftpistole. Dieser Vorgang lässt sich einfach durch die sehr geringe Kompressibilität des Wassers und eine damit verbundene starke Druckerhöhung erklären (Physik in unserer Zeit 2013, 44(5), 251). Eine genaue Analyse aller Vorgänge sollte aber auch Fragen beantworten wie: Spielen vorhandene Luftblasen in der Flüssigkeit eine Rolle? Wie lange dauert es bis zum Aufplatzen, und muss die wassergefüllte Kugel eigentlich fest verschlossen sein?
The importance and the attractivity of the sensorimotor training is still growing. Up to now the impact of the training on the body is not yet fully investigated. Hence, nowadays the planning of the therapy is mainly based on the experiences of the physiotherapist and on the conditions of the practice. For the development of the therapy the physiotherapist is supported by manufacturer's information about the exercisers as well as by general assumptions regarding the sensorimotor training. For the validation of this information two setups were investigated. In the first part, the behavior of two students was studied on three exercisers. Here the EMG data and the motion data were analyzed. In the second part, the behavior of the left and the right body side was analyzed for 16 subjects. The study revealed that the major work for the maintenance of the equilibrium is done by the distal musculature. Furthermore, it was shown that there is a different behavior of the musculature at both body sides. Additionally, it has been proven that each test person had an individual behavior on the exercisers. Consequently, it would be hard to make general assumptions regarding the impact of the training on the body.
Integrated multichannel photon timing instrument with very short dead time and high throughput
(2013)
Infrared
(2013)
German safety regulations and best practices to prevent accidents regarding the Gumi accident
(2013)
nfrared spectrometry is one of the most important tools in the field of spectroscopic analysis. This is due to the high information content of spectra in the so-called spectroscopic fingerprint region, which enables measurement not only of gases, but also of liquids and solids. Today, infrared spectroscopy is almost completely dominated by Fourier transform infrared (FTIR) spectroscopy. FTIR spectroscopy is able to detect minute quantities in the ppm and ppb ranges, and the respective analyses are now standard tools in science as well as industry. Therefore FTIR spectroscopy should be taught within the standard curriculum at university to physicists and engineers. Here we present respective undergraduate laboratory experiments designed for students at the end of their third year. Experiments deal first with understanding the spectrometer and second with recording and analysing spectra. On the one hand, transmission spectra of gases are treated which relate to environmental analytics (being probably the most prominent and well-known examples), and on the other hand, the focus is on the transmission and reflection spectra of solids. In particular, silicon wafers are studied—as is regularly done in the microelectronics industry—in order to characterize their thickness, oxygen content and phonon modes.