Chris Dayal Honors Physics Period 6/7 Mr. Kirch 1. Lab: The numerical Models for a constant Linear Acceleration 2. Purpose: To work the mathematical models for a identical additive acceleration to anticipate and test how high an inclination tossed vertically will rise. Also, we pick up to explain how selective information for exertion along an course supports the model of a provide one-dimensional acceleration both mathematically & graphically. 3. Apparatus: Video, Incline, surface Ball, Ruler, Books, Stopwatch, Meter Stick, Microsoft travel by 4. Sample Calculations: 5. Data: d (cm)| tavg (sec)| tavg2| 0| 0| 0| 50| 1.31| 1.72| 60| 1.62| 2.63| 70| 1.76| 3.10| 80| 1.81| 3.28| 6. analysis: include in Summary 7. Summary: The main purpose for the lab was to use the given mathematical models for a reproducible running(a) acceleration to test and predict exactly how high an purpose tossed vertically will rise. In addition, we must explain how data for motion along an incline supports the model of a uniform linear acceleration in terms of both mathematically & graphically stand storys. This was achieved by low watching a video of a ball being tossed up in the air.
Since the whole video was ab aside 30 frames long and we requisite to predict vi, we first counted exactly how many frames it took for the ball to issuance a shit to its pinnacle point from when it odd the someones go past. After, we heedful the distance from when the ball left the persons stack to the highest point. Since vf would be at the highest point (climax ) (which would be 0m/s), we wherefore block! ed in all of the value into the d / t = (vi + vf) / 2 comparison to find out and solve for vi, the unknown variable. We then tested this by development the d/t equation by using the first frame, using 1/30 m/s for the clipping and saw how long it took to withdraw from the persons hand to the first frame. We then careful this for the distance. Our prediction was roughly 5.75m/s and tested value proved to be 6.4m/s. Some differences in our...If you want to get a full essay, order it on our website: OrderCustomPaper.com
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