Part 3: Acceleration Prediction The video below shows a cart going down a ramp. The acceleration of the cart is roughly constant and the video was shot at 60 frames per second. Unfortunately, though, the playback skips the odd frames. This will affect your frame discrepancies. Fill in the table below by determining the frames (integers only) at which the cart was released (f) & at which it reaches 0.7 m (f), the uncertainties for both (o&o), the cart's acceleration (a) over 0.7 m, and the acceleration uncertainty (₂). The formula for o, is below the table. eumatic cannon shoots peanut M&M into foam block cart Examples of Direct Measurement Physi.... 21 mass=2753920.10 Watch later M&M mass=1.96±0.01 g 15 cm 0 cm Share frames+50 60 trames per second
Part 3: Acceleration Prediction The video below shows a cart going down a ramp. The acceleration of the cart is roughly constant and the video was shot at 60 frames per second. Unfortunately, though, the playback skips the odd frames. This will affect your frame discrepancies. Fill in the table below by determining the frames (integers only) at which the cart was released (f) & at which it reaches 0.7 m (f), the uncertainties for both (o&o), the cart's acceleration (a) over 0.7 m, and the acceleration uncertainty (₂). The formula for o, is below the table. eumatic cannon shoots peanut M&M into foam block cart Examples of Direct Measurement Physi.... 21 mass=2753920.10 Watch later M&M mass=1.96±0.01 g 15 cm 0 cm Share frames+50 60 trames per second
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter3: Two-dimensional Kinematics
Section: Chapter Questions
Problem 64PE: (a) Use the distance and velocity data in Figure 3.64 to find the rate of expansion as a function of...
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