\fAdjust the mass by adding 3 grams at a time and run the simulation. Mass (g) Does the glider move? 10 g 13 g 16 g 19 g 22 g 25 g 28 g 31 g 11) At what mass of hanging weight does the glider move and reach the end? 12) How long does it take to reach the end of the track? 13) What is the acceleration? Please verify by calculating the acceleration using the formula provided on the website.Part II: Now change the mass of the hanging weight to m = 10 g and zero out your coefficient of friction. Run your simulation again. 5) How long does it take for the glider to reach the end of the track? How does this compare to question 1 in Part I? 6) What is the acceleration? Please verify by calculating the acceleration using the formula provided on the website. Keeping the masses the same, change the coefficient of friction to u = 0.01 and run the simulation. 7) How long does it take for the glider to reach the end of the track? How does this compare to the time in Question 5? 8) Why did this simulation work and the second simulation in Part I fail? Part III Leaving the masses the same as in Part II, change the coefficient of friction to 0.25. Run the simulation. 9) How long does it take for the glider to reach the end of the track? 10) What happened in this simulation