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m = 800g Fan Force # F(N) t(s) d(m) a(m/s^2) 0.48 1.725 0.89 0.5982 2 0.98 1.208 0.89 1.2198 3 1.5 0.9917 0.89 1.811 4
m = 800g Fan Force # F(N) t(s) d(m) a(m/s^2) 0.48 1.725 0.89 0.5982 2 0.98 1.208 0.89 1.2198 3 1.5 0.9917 0.89 1.811 4 1.93 0.8667 0.89 2.3696 5 2.45 0.7667 0.89 3.0281\f. Plot Fthmst vs a when the mass is kept constant at m = 0.800 kg. Make sure that the acceleration is along the horizontal axis. (4 points) Force vs Acceleration a) What overall trend do the data points suggest, linear or non-linear? Based on this graph, is Newton's 2nd Law valid for the glider? Explain your answer to get any credit. (3 points) b) Add the type of trendline suggested by the overall trend of the data points and show its equation on chart. Based on the trendline, what is the experimentai vaiue for the glider's mass? How far off is it, percentagewise, from its known value? Expiain your answer to get any credit. (4 points} Force vs Acceleration c) Based on the trendline equation, what is the experimental value for the air resistance force FMS? How does the air resistance compare, percentagewise, to the smallest measured thrust force? So, is the air resistance significant in this experiment? (4 points) 2. Plot a vs - using all five measurements corresponding to Fan Force 3. m Make sure that the inverse of mass (1/mass) is along the horizontal axis. (4 points) Insert graph here Acceleration vs (1/Mass) 1.4 1.2 0.8 acceleration (m/s* 2) 0.4 0.2 0 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1/mass (1/kg)a) What trend do the data points suggest, linear or non-linear? Based on this graph, is Newton's 2nd Law valid? Explain your answer to get any credit. (3 points) b) Add the type of trendline suggested by the trend of the data points and show its equation on chart. Based on the trendline equation, what is the experimental value for the air resistance 14",\"? Explain your answer to get any credit. (5 points) Acceleration vs (1/Mass) 1.6 1.4 V = 0.7722x + 0.3698... 1.2 acceleration (m/s*2) 0.8 0.2 O 0.2 0.4 0.6 0.8 1 1.2 1.4 1/mass (1/kg) Series1 awww.". Linear (Series1) wwwwww.". Linear (Series1] Conclusions (8 points) Summarize how you checked the validity of Newton's 2nd Law in this experiment. Has it been validated or not? Explain your answer to get any credit. Enter answers here
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