A 1 Initial velocity: B с D E F G H 5.2419 m/s 2 Initial position: 11.087 m/s Position vs Time 3 acceleration: 3.3702 m/s^2 4000 4 error bars: 210.05 m 3500 y= 1.6851x²+5.7419x+11.087 5 3000 6 time, s position, m 7 1 18.014 8 3 41.979 9 5 79.424 Position, m 2500 2000 1500 10 7 130.35 1000 11 12 13 14 15 16 17 =མག་་༧༧་ 9 194.76 500 11 272.64 0 13 364.01 0 -500 20 15 468.86 10 20 30 40 50 Time, s 17 587.19 19 719 21 864.29 Theory Consider the equation 1 that described the dependence of position x on time. 1 x = -at² + vot + xo (1) where a is the acceleration, t is time, vo is the initial velocity and x is the initial position. You will use Excel or similar software and the eq. 1 to complete this assignment. You will write the report using the format that is described in this manual. Analysis To analyze the eq. 1, you will first set up the problem. For initial position, use the following: =RAND()*100. For initial velocity: =RAND()*20. For the acceleration:=RAND()*5. And for error bars: =(0.4+RAND())*200. Set up the time column. You can start at 0 or any other value, the increment should be at least 2 seconds, and create at least 50 points. (Hint - don't just type all numbers manually!). Enter the eq. 1 into the column called position or distance (remember units for each!! Remember static cells with $$). Make the scatter plot - no connecting lines etc., only dots. Set the error bars to the value in 'error bars'. Add trendline (what type should it be and why?). Show the fit equation. Do the fit parameters correspond to the ones that you set initially? Remember to label the axis! All helpful hints are in the video that is provided. Other resources also exist!

help i dont understand this it should look like something like this picture. help me with the steps

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A 1 Initial velocity: B с D E F G H 5.2419 m/s 2 Initial position: 11.087 m/s Position vs Time 3 acceleration: 3.3702 m/s^2 4000 4 error bars: 210.05 m 3500 y= 1.6851x²+5.7419x+11.087 5 3000 6 time, s position, m 7 1 18.014 8 3 41.979 9 5 79.424 Position, m 2500 2000 1500 10 7 130.35 1000 11 12 13 14 15 16 17 =མག་་༧༧་ 9 194.76 500 11 272.64 0 13 364.01 0 -500 20 15 468.86 10 20 30 40 50 Time, s 17 587.19 19 719 21 864.29

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Theory Consider the equation 1 that described the dependence of position x on time. 1 x = -at² + vot + xo (1) where a is the acceleration, t is time, vo is the initial velocity and x is the initial position. You will use Excel or similar software and the eq. 1 to complete this assignment. You will write the report using the format that is described in this manual. Analysis To analyze the eq. 1, you will first set up the problem. For initial position, use the following: =RAND()*100. For initial velocity: =RAND()*20. For the acceleration:=RAND()*5. And for error bars: =(0.4+RAND())*200. Set up the time column. You can start at 0 or any other value, the increment should be at least 2 seconds, and create at least 50 points. (Hint - don't just type all numbers manually!). Enter the eq. 1 into the column called position or distance (remember units for each!! Remember static cells with $$). Make the scatter plot - no connecting lines etc., only dots. Set the error bars to the value in 'error bars'. Add trendline (what type should it be and why?). Show the fit equation. Do the fit parameters correspond to the ones that you set initially? Remember to label the axis! All helpful hints are in the video that is provided. Other resources also exist!