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| 183_notes:examples:positionpredict [2014/07/14 18:14] – [Example: Predicting the location of a object undergoing constant velocity motion] caballero | 183_notes:examples:positionpredict [2024/01/31 16:37] (current) – [Setup] caballero | ||
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| A cart is given a slight push along a near frictionless track (as shown in the video below). | A cart is given a slight push along a near frictionless track (as shown in the video below). | ||
| - | {{ youtube>l2EA9b_TzaA?large }} | + | {{ youtube>sdjsaxLfevQ?large }} |
| After the push, the cart is observed to move with a near constant velocity →vcart=⟨1.2,0,0⟩ms. Determine its location after 3 seconds. | After the push, the cart is observed to move with a near constant velocity →vcart=⟨1.2,0,0⟩ms. Determine its location after 3 seconds. | ||
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| * The location of the cart can be predicted using the position update formula, →rf=→ri+→vavgΔt | * The location of the cart can be predicted using the position update formula, →rf=→ri+→vavgΔt | ||
| * The motion of the cart is represented using the following motion diagram. | * The motion of the cart is represented using the following motion diagram. | ||
| - | {{url>http://www.pa.msu.edu/~caballero/teaching/simulations/FanCartConstantVelocity.html | + | {{url>https://glowscript.org/#/user/danny/folder/ |
| ==== Solution ==== | ==== Solution ==== | ||