We have also incorporates an anti theft alarm for the smart bag & also to the belt with NFC technology.
#Star suvarna muthulakshmi on youtube Bluetooth
I t can disable almost all types of existing spy cameras working at wireless video, in dressing rooms and Bluetooth cams, great for protecting your privacy in today's city life. This device utilizes unique and intelligent technique that interferes with the 1.2/2.4GHz signals of wireless camera. As part of keeping our privacy, the device will contain the Hidden Camera detector. It will be sending the alert messages continuously for a particular amount of time to the nearby police station (normal mode) and to the railway help line number (train mode). Our first line of defense is personal safety feature is that it sends an emergency message to your chosen contacts with the push of a single button, We start by sending text message one Guardian we designate will receive a message, with a link to a map showing your location via GPS.
#Star suvarna muthulakshmi on youtube portable
These devices are handy made for portable use in almost any circumstance. This system consists of 2 sections, one is a smart belt & other is a smart bag both are wearable and user-friendly gadgets. Our aim is to create a complete safety features enabled portable device which will give true right for everyone to live their freedom to the fullest. Where awareness fails we need efficient devices to assure our safety.
Personal safety has become an issue of importance for everyone, especially for women.
The sad reality is that we live in an increasingly violent society in which the fear of crime is ever-present. The results are compared with the results of Faurie et al (2005). Comparing the experimental graphs with the theoretical equations it was possible obtained their mechanical properties and the principal stresses-strains of the anisotropic gold thin film. With the data, it is possible to make graphics, "(strain) X F, for every force applied to the sample. As the gold thin film and substrate are considered transversely isotropic, therefore, is firstly required a texture analysis with the purpose of determining the possible Euler angles () and ( ) for each crystallographic direction that can be used in the model equations. As an application, it uses the technique and data developed by Faurie et al (2005) in fibber-textured gold film deposited onto Kapton substrate by combining synchrotron X-Ray diffraction in situ tensile testing. A new equation for the stress of the film-substrate system is proposed based on Newton's laws and energy conservation.
Therefore, the constitutive relation between strain and stress will be considered orthotropic, obeying the generalized Hooke's law. It is entirely possible to dene and to analyse anisotropy in elastic media from first principles in thin films. The approach differs from the standard literature which usually brings crystal symmetries or is directly concerned with crystalline materials. The purpose of the present article is to make a model using analytical equations, based on elasticity theory of continuous media for small deformations, with the aim of completely characterizing the material in their mechanical properties as well as the principal stresses-strains of thin films. A specific statement for electromagnetic repulsion: the MBH in O must be replaced by a mini white hole (MWH) acting as a repulsive geyser. More, considering that there would exist three mini black holes (MBH) on the gravitational axis of the neutral or charged masses (one in every gravitational center and another in the zero resulting potential point O) better illuminates the phenomenological physical comprehension of attractions and repulsions for these two forces of classical physics. This reconsideration allows concluding the integration of gravity to electromagnetic force in a third specific case – two neutral masses. The standardization lies in realistic taking into account of surfaces emissions effects in the space-time (neutral and charged masses) according their equivalent black body temperatures Te. The basis of this primary and essential standardization of initiators physical principles strong approximation (new concept in EVTD2 theory) concerns the gravitational fields and those appearing in electrostatic.
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