ProjecteryDiagramMethodThe A 3 sheet of white paper was attached to the board, with drawing pins, and the board was placed underneath a book, to put it on a slight incline. Using a protractor, lines were drawn on as a guide for where to line up the marble. The lines were drawn at 30 O, all the way to 70 O, at 5 O intervals. A runner was needed to drop the marble down to the inclined board. A piece of card was used, that was bent in half to create a runway.
Wherever the marble went off the board, was marked. The result was confirmed by measuring from the point the marble was thrown to the point it fell of the board. We produced the test a couple of times to find the best results. Results Angle Range (cm) 30 O 24.
335 O 25. 940 O 26. 645 O 27. 050 O 27. 855 O 26. 860 O 24.
665 O 20. 670 O 18. 2 Conclusion Prediction: At 45 degrees the marble will travel the longest. At 45 O the vertical velocity and the horizontal velocity are the same. Example: In the vertical direction the object decelerates at 10 ms-2 (approx).
It will take exactly 1 second for it to reach its maximum height.
This is because of the following. 10 ms-2 means every second velocity decreases by 10 ms-1. It will take half a second to decrease by 5 ms-1. Therefore, 5/10 = 0.
5, Decrease in velocity / deceleration. 2 x 0. 5 = 1 second. During this one second, the object will travel a horizontal distance. Range = horizontal velocity x time = 5 x 1 = 5 the experiment that has been undertaken here has gone slightly off course simply because of the prediction being 45 O. This experiment has shown that it reached its height at 60 O, which could have been interrupted by several things.
The Term Paper on How Does The Drop Height Of The Marble Affect The Size Of The Crater In Sand?
Impact craters are geologic structures formed when a large meteorite, asteroid or comet smashes in to a planet or a satellite. Meteorites are small rocks in space that hit the earth’s atmosphere at a high velocity. Throughout their history they have heavily bombarded all the inner bodies in our solar system. In this experiment we will use marbles as our meteorites, these will be free falling ...
The things that could have altered the final results are the following: The runway may not have been perfectly on level with the lines of angle. The board wasn’t at same height. The speed of movement at the beginning from the marble. The runway wasn’t steady. The runway may have been at different heights. To produce a fairer test, an average could have been taken, or a more suitable runway.
I believe that a bigger board and easier lines to follow would have made it much easier and more accurate. How applied to sport? Projectery is used in almost every sport, e. g. Javelin: When throwing the javelin. Shot put: When throwing the shot put.
Football: When kicking the ball. Projectery is used in sport as many use this to judge the best way to be able to get the distance that they want. A Goalkeeper will know that when hitting at 45 O the ball will go the furthest. He will continuously try to practise to perfect his kicking so it will be at the 45 O angle. Taking a free-kick, David Beckham for example, will change the projectery depending on where the free-kick is positioned; he will then adjust the power to perfect this free-kick.
In javelin power and technique are vital to producing a good throw. Steve Back ley always had a good technique and he aimed for that 45 O angle every time. With his power, as soon as he hits the angle, the javelin would travel a very long distance. Although power and strength are more necessary in the shot put, technique also plays its part through projectery..