Abstract
My research is an attempt to derive mathematical formula to describe the state of a system created by two or more waves resulting in a shockwave production. The shockwave produced is a carrier of an energy that can be used for motion in gases and liquids To be able to utilize this energy we must be able to describe the state of a system of two or more waves at any given time thus deriving a formula that links energy produced to the component characteristics of the wave - e.g frequency, amplitude, etc. A mathematical model is used, which presents a system of waves as a sum or difference of two vectors which is the resulting vector or a shockwave. It is a model that has been obtained after using detailed analysis of both longitudinal and transverse waves. The purpose of my research is to make a phenomenon such as interference of waves understood as a means of creating of energy that can be utilized for the purposes of engineering physics research and mathematical description. The subject of my research, acoustic waves, were chosen as an example to demonstrate the characteristics of a shockwave as a main carrier of an energy and transmitter of it in different kinds of environments.
Presenters
Ruslan Pozinkevychteacher-assistant, preparatory education department, Eastern European University named after Lesya Ukrayinka, Vinnyts'ka Oblast', Ukraine
Details
Presentation Type
Paper Presentation in a Themed Session
Theme
KEYWORDS
Constructive/destructive interference Exponential form Longitudinal waves Shockwave Sound resonance Strength of wave Transverse waves Vector sum/difference Wave vector
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