The Physics Behind Roller Coasters
To understand how a roller coaster performs, you have to appreciate some of the physics behind it. To obtain the marble to start moving, gravity works to increase its velocity. Velocity is a speed of the object within a certain course. The angle that the observe is inclined at will help gravity perform its job. The higher the tend, the more quickly the marble will approach. After gravity gets the marble to start moving, the marbled starts to grab speed or accelerate. The longer the marble can be on the willing track with no change in course, the faster it will move. When the marbled gets to a large part and it has to change direction, inertia has to be accounted for. Inertia is if the marble will need to keep going inside the direction it was going in. The marble is forced to go in a unique direction mainly because it gets to a corner of the monitor. At the spot, inertia is interrupted by walls from the corner as well as the direction in the marble can be changed. After the marble the actual turn, it needs to pick up speed again as the velocity became zero for a small time because it hit around the corner. The tend and the law of gravity get the marble rolling once again and this picks up speed or accelerates. The whole time that the marble is for the track, there exists friction between your surface of the marble and the surface of the track. The friction in the popsicle sticks of the monitor cause the marble to slow down. Mainly because friction exists, the incline of the monitor has to be a bit steeper to make the marble maneuver. Gravity needs to be greater than rubbing so that the marbled can spin. Another thing that should be thought of when creating a roller coaster is the mass from the marble. In case the roller coaster observe is not strong or sturdy enough to support the marble, then the marble will be too heavy and simply fall through or break the observe. The basket that catches the marble after the totally free fall also offers to be strong because it must support the mass of the marble...