In this research, the basic equation which describe the evaluation of
population and phase during the time for Boson-Josephson Junction has
been concluded in to consider two and three body interaction potential.
Then josephson frequencies have been calculated of BJJ in the presence
of three body interaction.
This research drives at studying the reduction of vibration effect on
central control system located on about 100 m of the Vertical mill
running at New Hama Cement factory , which grinds raw materials
necessary for cement production ,Whereas , the
increase of vibration
intensity leads to vibrate control Instruments beams and the electronic
elements will be damaged.
Raman spectra of Carbon Tetrachloride in Methanol solutions were
measured. Spectral lines n1 (symmetric stretch vibrations), n3 (asymmetric
stretch vibrations) of Carbon Tetrachloride were analyzed. The Raman spectra
were fitted using Peak-Fit sof
tware applying a sum of Gaussian and Lorentzian
components. Results indicate that, there is a clear difference in the behavior of
peak position and width of the two type of vibrations with varying the
structural composition of the surrounding environment due to varying of the
methanol concentration. On the other hand we found that a similarity in the
dependence of the intensity of spectral lines on the concentration of methanol,
with a high degree of non-linearity.
The effect of two - mass system factors on the quality and quality of
transient states , particularly the effect of mechanical rigidity has been
studied in this research .
Besides , mathematical expression which can calculate the optimal value of
rigidity and provide the minimum extent of electromechanical vibrations
have been obtained .
Characteristics and schematic diagrams that prove the effect of mechanical
rigidity on the behaviour of the transient state are illustrated .
These methods help to improve the performance of automatic control
systems in order to provide the minimum dynamic loads without reduction
of the machine productivity.