Predicting the Position of a Rotating System: Difference between revisions

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#'''How is it connected to your major?'''
#'''How is it connected to your major?'''
#'''Is there an interesting industrial application?'''
#'''Is there an interesting industrial application?'''
In the theme and amusement park industry (e.g. Six Flags and Disney World), the aforementioned method of predicting the position of a rotating system can be applied to determine how far a certain rider has moved on either Mickey's Fun World or Colossus. This prediction of a rider's position after a certain amount of time could be applied by economists to determine the ideal speed ''and'' time interval to run their respective ferris wheels to yield an optimal economic profit with respect to the cost of admission tickets.
[[File:500px-World_of_Color_overview.jpg|thumb|left|300px|Ferris wheel at Disney World.]]
[[File:500px-Stlouisflags.jpg|thumb|right|300px|Ferris wheel at Six Flags(St. Louis).]]
##In the theme and amusement park industry (e.g. Six Flags and Disney World), the aforementioned method of predicting the position of a rotating system can be applied to determine how far a certain rider has moved on either Mickey's Fun World or Colossus. This prediction of a rider's position after a certain amount of time could be applied by economists to determine the ideal speed ''and'' time interval to run their respective ferris wheels to yield an optimal economic profit with respect to the cost of admission tickets.


==History==
==History==

Revision as of 14:54, 1 December 2015

(claimed by Anna Marie Whitacre, awhitacre7)

Visual of a rotating system.

In order to provide a cohesive and detailed model of the motion of a rotating object (including Systems with Zero Torque and Systems with Nonzero Torque) it is necessary to predict the position of the system.

The Main Idea

The position of a rotating system can be predicted by predicting the angle over which the object will rotate though out time. Basically, the key to finding out how much a rotating object has moved (over a specific time interval) is the angle through which it moves.

A Mathematical Model

Given that the system in question is indeed rotating, the update form of The Angular Momentum Principle is always applied about the the center of mass in our calculations.

The update form of the Angular Momentum Principle is as follows: [math]\displaystyle{ \vec{L}_{rot,f}=\vec{L}_{rot,i}+\vec{\tau}_{net}\Delta t }[/math] where [math]\displaystyle{ {L} }[/math] is rotational angular momentum and [math]\displaystyle{ \tau }[/math] is net torque from the surroundings.

In basic situations, the update form of the Angular Momentum Principle can further be simplified to account for The Moments of Inertia, [math]\displaystyle{ I }[/math], and the Angular Velocity, [math]\displaystyle{ \omega }[/math] of the rotating system. This simplification of the update form of the Angular Momentum Principle yields the following mathematical equation: [math]\displaystyle{ I\omega _{f}=I\omega _{i}+RF\Delta t }[/math] where net torque, [math]\displaystyle{ \vec{\tau}_{net} }[/math] is simplified to the product of all the forces acting on the system and the locations to which these forces are applied, [math]\displaystyle{ RF }[/math].

A Computational Model

How do we visualize or predict using this topic. Consider embedding some vpython code here Teach hands-on with GlowScript

Examples

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Connectedness

  1. How is this topic connected to something that you are interested in?
  2. How is it connected to your major?
  3. Is there an interesting industrial application?
File:500px-World of Color overview.jpg
Ferris wheel at Disney World.
File:500px-Stlouisflags.jpg
Ferris wheel at Six Flags(St. Louis).
    1. In the theme and amusement park industry (e.g. Six Flags and Disney World), the aforementioned method of predicting the position of a rotating system can be applied to determine how far a certain rider has moved on either Mickey's Fun World or Colossus. This prediction of a rider's position after a certain amount of time could be applied by economists to determine the ideal speed and time interval to run their respective ferris wheels to yield an optimal economic profit with respect to the cost of admission tickets.

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