(Solved): * In The Flywheel experiment, find the moment of inertia for The following Values ... Then solve th ...

* In The Flywheel experiment, find the moment of inertia for The following Values ... Then solve the discussion Calculation set on this table Ist time ? Weight (N) m N n mass in (kg) 8 4 1 0. 0.203 DOC 2 3 4 4 0305 1 2 3 4 5 6 7 8 Drop times as a function of drive weight 2nd time 3rd Average Time T T time T time T calculated in measured in sec sec(1/1) 56.06 54.46 37.92 38.16 28.00 27.99 23.5o 23.6% 20.88 20.5 19.44 19.6. 17.96 17.84 16.02 57.03 38.56 28.25 24.03 21.44 19.59 18.00 16.18 8 8 8 8 4,2 4.3 4.4 4.5 4.6 4-7 4.8 5 6 0.407 o. 509 0.611 0.713 8 8 8 7 8 ?.815 15.75 ? To Technical data:- M wm WA F IET For flywheel 1 1.778 0.889 1 p=7850 Kg/m 2 2.598 1.299 2 Diameter: Width: Ø 300 mm 40 mm 3 3.566 1.783 3 11 4.223 2.111 4 For shaft 5 4.766 2.383 5 Diameter 22 mm 6 5.139 2.569 6 7 5.594 2.797 7 8 6.280 3.140 8 Discussion: 1. Compare the theoretical value and practical value of the moment of inertia for flywheel? 2- Discuss the effect of weight on the moment of inertia for flywheel? 3- What are the most important flywheel applications? 4. What is the flywheel? 5- Is the body's moment of inertia constant? 6- What happens to the potential energy when the mass starts to move? 2- Why does the flywheel stop after when the mass falls?