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Actual Moment of Inertia (g.cm-j: Mass of disk, M = 1500 grams Radius of disk, R= 12 cm (16) Friction mass = grams Radius of shaft, r =_1.25 cm Expt. Moment of Inertia (g.cm2) Hanging mass, m Acceleration, a

Actual Moment of Inertia (g.cm-j: Mass of disk, M = 1500 grams Radius of disk, R= 12 cm (16) Friction mass = grams Radius of shaft, r =_1.25 cm Expt. Moment of Inertia (g.cm2) Hanging mass, m Acceleration, a

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Actual Moment of Inertia (g.cm-): Mass of disk, M= 1500 grams Radius of disk, R = 12 cm (16) Friction mass = 5. grams Radius of shaft, r =, 1.25 _cm Hanging mass, m Acceleration, a Expt. Moment of Inertia (g.cm²) 40 grams 0.566 cm/s² (17) Use: gravity, g =, 980 cm/s2 %3D
Transcribed Image Text:Actual Moment of Inertia (g.cm-): Mass of disk, M= 1500 grams Radius of disk, R = 12 cm (16) Friction mass = 5. grams Radius of shaft, r =, 1.25 _cm Hanging mass, m Acceleration, a Expt. Moment of Inertia (g.cm²) 40 grams 0.566 cm/s² (17) Use: gravity, g =, 980 cm/s2 %3D
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