Earthquake Prediction Using GPR | Techno Tectonics | nasaspaceappschallenge2018 скачать в хорошем качестве

Earthquake Prediction Using GPR | Techno Tectonics | nasaspaceappschallenge2018

Nasa Space Apps Challenge: https://2018.spaceappschallenge.org Basis:   / basis.bd   Basis Student's Forum:   / basisstudentsforum   This is the Earthquake Prediction Software with GPR technology, the humble presentation of team techno tectonics. With the theory of Akib Sarwar, Coding of Ashraful Houqe, Animation of Muntakim Mostofa, Management of S A Saad and the presentation of Shushmita Barua, we will try to predict the earthquake with you. Each year many fatal earthquakes take place. Hundreds of people die and properties worth of billions of dollars get damaged. In the 21st century about 3 Million people died due to fatal eartquakes and trillions of dollar worth property was damaged. What if we can predict this natural disaster? It will be easy to take precautions decreasing the damage of property and possibly decreasing the death toll to zero. Noting is impossible in science. By using the GPR technology and our self-build software, we can navigate the major tectonic plates and predict when and where they might collide. Since the main reason of earthquake is the collusion of major tectonic plates and the release of seismic energy in a sudden, predicting the collusion of major tectonic plates means predicting the earthquake itself. To do so, we will use GPR at the approximate edges of the major tectonic plates and send GPR waves at theta degree angle with the perpendicular and take still images of the estimated positions of the tectonic plates between a constant or known time intervals. We will also need a software to calculate the velocity and then navigate all of the plates. Using the equation of velocity, distance = primary/initial velocity into the time interval plus acceleration into time interval square divided by two, the software can know the exact velocity of the tectonic plates. Here we will neglect the acceleration since the value of it is too low. Now, to establish this relation we have to take a reference frame and find out the coordinates of the positions of the tectonic plates. From the coordinates we can find out the distance that the plate passed during the time interval using the equation distance = root over of the difference between the coordinates of X axis square plus the difference between the coordinates of Y axis square. Using both of the equations we can find out the velocity of the plate and the angle of its velocity with the X axis. In this case the software will navigate the plates according to the north and south pole like the world map works. By this one at a time we will be able to navigate all of the major tectonic plates and by sorting them into a navigation system it is possible to know when they are going to collide with each other causing a fatal earthquake. To do so there is another equation which is shown in the video (add this part of the sound with the 2nd box). Then our 8th GPR will scan the possibly colliding plates to find any cracks. If there is a crack in even one of them then it is a huge possibility of a fatal earthquake at the collusion point. Once we know when and where it is going to happen it is not very hard to evacuate the area and save the lives of hundreds of people. Though it is hard to prevent the property damage since we can not evacuate the buildings after all