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remarkable at 1000☌ of the heighest temperature used in this study. γ-LiAlO2 began to form at a temperature around 700☌ and its formation was most. γ-LiAlO2 was synthesized by a sol-gel method from the starting solutions with each small amount of Si(OC2H5)4 and the additives such as MnCl2, CoCl2, NiCl2 or CuCl2. Factors that effect the aging of tin has been studied in detail and an explanation of the mechanism of action of these factors has been suggested.Įach aqueous solution of LiNO3 and Al(NO3)3 obtained by dissolving in a proper amount of distilled water was used as the starting solution, mixing them. This phenomenon is concerned with the aging of tin: firstly, with the loss of “memory of the structure” of tin of the event when it was in the grey tin configuration, and, secondly, with the loss of “memory of recognition” of tin whereby the tin recognises that an object with which it is in contact, was previously in contact with substances of a particular type. The tin has the “memory of recognition” too-when the tin can recognises that an object with which it is in contact, was previously in contact with the “infection”.
![liquid rhythm drope liquid rhythm drope](https://images.reverb.com/image/upload/s--zOXcPIFI--/f_auto,t_large/v1565328828/gputy3szhjnehg9qtv9c.jpg)
Thus, for second and subsequent phase transformations, there is no need for external initiators to be used. Once the tin is transformed into its grey form, it retains a “memory” about this after it is transferred back into white tin. These pieces (when pressed into white tin) initiate phase transition (by “infection”) from white tin into grey tin.
![liquid rhythm drope liquid rhythm drope](https://swedenmidimusic.se/images/zoom/liquid-rhythm-box-vit-bakgrund-1-.jpg)
Transformations of metallic white tin into the grey semiconductor occur with the help of either small pieces of grey tin or other substances isomorphous with grey tin. It was shown that tin has two types of memory: 1) “memory of the structure” about of the event when it was in the α configuration, and 2) “memory of recognition (discern)” whereby tin recognises that an object with which it in contact, was previously in contact with substances of a particular type (“infection”).