Nonlinear Bubble Interactions in Acoustic Pressure Fields

The systems consisting of a two-phase mixture, as clouds of bubbles or drops, have shown many common features in their responses to different external force fields. One of particular interest is the effect of an unsteady pressure field applied to these systems, case in which the coupling of the vibrations induced in two neighboring components (two drops or two bubbles) may result in an interaction force between them. This behavior was explained by Bjerknes by postulating that every body that is moving in an accelerating fluid is subjected to a 'kinetic buoyancy' equal with the product of the acceleration of the fluid multiplied by the mass of the fluid displaced by the body. The external sound wave applied to a system of drops/bubbles triggers secondary sound waves from each component of the system. These secondary pressure fields integrated over the surface of the neighboring drop/bubble may result in a force additional to the effect of the primary sound wave on each component of the system. In certain conditions, the magnitude of these secondary forces may result in significant changes in the dynamics of each component, thus in the behavior of the entire system. In a system containing bubbles, the sound wave radiated by one bubble at the location of a neighboring one is dominated by the volume oscillation mode and its effects can be important for a large range of frequencies. The interaction forces in a system consisting of drops are much smaller than those consisting of bubbles. Therefore, as a first step towards the understanding of the drop-drop interaction subject to external pressure fluctuations, it is more convenient to study the bubble interactions. This paper presents experimental results and theoretical predictions concerning the interaction and the motion of two levitated air bubbles in water in the presence of an acoustic field at high frequencies (22-23 KHz)

The photoperiodism influence in growth and development of soy plants proceed from irradiate seeds

Die aus bestrahlten Samen stammen es wurde die Reaktion der sojapflanzen, die Sorten Merit und Chipewa bei einer Behandlung mit ionisierten Strahlen (die Pflanzen stammen aus Samen, die mit einer Doze von 20 Kr Gammastrahlen bestrahlt waren) und bei verschiedenen induktiven und nichtinduktiven Photoperioden (8 Std., 16 Std. und vollstandigem Licht 5, 10 und 15 Tage lang) studiert. Die Grupe der bestrahlten Samen Erwies eine Stimulierung der Keimung und des Wachstums im Vergleich zu der nicht bestrahlten Gruppe der Kontrollsamen. Ebenfalls wurde eine quantitative Beeinflussung auf das Bluhen beobachtet doch es ergab sich ein kleiner einfluss auf die photoperiodische Reaktion der Pflanzen