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

Please help me answer the last two parts 

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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 (fi) & at which it reaches 0.7 m (f), the uncertainties for both (0₁ & ₁), the cart's acceleration (a) over 0.7 m, and the acceleration uncertainty (). The formula for ₂ is below the table. eumatic cannon shoots peanut M&M into foam block cart Examples of Direct Measurement Physi.... ot mass=275910.1g Watch later M&M mass = 1.98±0.01 g 15 cm c 2012 Peter Bohacek Watch on f₁ (frames) 10 FI YouTube Ofi (frames) 1 BB 1 2 F2 0 cm #3 # 3 ff (frames) 72 20 F3 $ 4 off (frames) 1 000 ODD F4 frames+50 60 frames per second % 5 (s) 1.0335 Share F5 (m/s²) A 6 da (m/s²) F6 0.0845 MacBook Air 2a(of + Of) & 7 F7 * 8 F8 9 F9 - F10 ? F11 + B F12

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1 webassign.net/web/Student/Assignment-Responses/submit?dep=29421590&tags-autosave#question4662814_0 0 (degrees) a (m/s²) If air drag and friction are negligible, then gravity is responsible for the acceleration of the cart. By applying Newton's 2nd Law, it can be shown that a=gsine where is the angle of inclination & g is the free fall acceleration (g = 9.8 m/s2). Fill in the table below by determining the angle & angle uncertainty from the video and then calculating the acceleration (apred) & the acceleration uncertainty. The formula for pred is below the table. a pred (m/s²) Now determine the ranges for a & apred- Ideally, these ranges will overlap. Minimum value F1 00 (degrees) 2 F2 # apred (m/s²) 3 Maximum value 20 F3 $ pred (frames) 4 000 DOD F4 % 5 F5 opred A 6 2a(off + of) F6 M gro cose MacBook Air & 7 180 F7 * 8 ▶11 F8 F9 - Ô ☆ F10 To B FIL F12 2