A 103 g Frisbee is 18 cm in diameter and has half its mass spread uniformly in the disk and the other half concentrated in the rim.
1,What is the Frisbee's rotational inertia?
2.With a quarter-turn flick of the wrist, a student sets the Frisbee rotating at 550 rpm . What is the magnitude of the torque, assumed constant, that the student applies?
A 103 g Frisbee is 18 cm in diameter and has half its mass spread uniformly...
A 106 g Frisbee is 27 cm in diameter and has half its mass spread uniformly in the disk and the other half concentrated in the rim. What is the Frisbee's rotational inertia? With a quarter-turn flick of the wrist, a student sets the Frisbee rotating at 510 rpm What is the magnitude of the torque, assumed constant, that the student applies?
A 104 g Frisbee is 20 cm in diameter and has about half its mass spread uniformly in a disk, and the other half concentrated in the rim. With a quarter-turn flick of the wrist, a student sets the Frisbee rotating at 570 rpm. (a) What is the rotational inertia of the Frisbee? _________ kg·m2 (b) What is the magnitude of the torque, assumed constant, that the student applies? _________ N·m
Q3 - Determine the moment of inertia of the aluminum ring,
Iring, shown in Figure 3 given the following parameters associated
with the ring: mass M = 61 grams; and inner and outer radii, a =
6.35 cm and b = 7.6 cm, respectively.
Q4 - A 108 gram Frisbee is 24 cm in diameter and has about half
its mass spread uniformly in a disk, while the other half is
concentrated in the rim of the Frisbee. With a...
A Frisbee is 26.0 cm in diameter and has half its mass concentrated in the rim, the rest spread uniformly over its area. The Frisbee's rotational inertia is 1.67 g⋅m2. What's its mass?