The following actions occur in the order described below. (1) The hanging mass is dropped at time t = 0.0 seconds, and tension is applied to the disc for 5.0 seconds. (2) At exactly 5.0 seconds, a student uses scissors to cut the string at Point A. The disc now spins without friction. (3) The disc freely spins without friction for 3.0 seconds. (4) At exactly 8.0 seconds, a student drops Disc B directly on top of Disc A, such that its center of axis of rotation aligns with Disc A. (5) Disc A and Disc B spin without friction for an additional 4.0 seconds, when the analysis is ceased. (23) What is the best approximation the for linear distance dropped by the hanging mass after 5.0 seconds of drop time?

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Use the below information to answer Questions 23 – 26.
A Pasco rotational motion sensor contains a disc of mass and radius properties outlined below. The string connecting
the hanging mass to the disc is wound around the perimeter of the disc. (Once the mass is released, the disc spins in
a counter-clockwise manner).
Disc A
Disc Mass = 5.0 kg
Disc Radius = 0.02 m
Point A
Disc B
Disc Mass = 20 kg
Disc Radius = 0.01 m
Hanging Mass = 100 g, (0.10 kg)
The following actions occur in the order described below.
(1) The hanging mass is dropped at time t = 0.0 seconds, and tension is applied to the disc for 5.0 seconds.
(2) At exactly 5.0 seconds, a student uses scissors to cut the string at Point A. The disc now spins without friction.
(3) The disc freely spins without friction for 3.0 seconds.
(4) At exactly &8.0 seconds, a student drops Disc B directly on top of Disc A, such that its center of axis of rotation
aligns with Disc A.
(5) Disc A and Disc B spin without friction for an additional 4.0 seconds, when the analysis is ceased.
(23) What is the best approximation the for linear distance dropped by the hanging mass after 5.0 seconds of drop
time?
(A) About 0.8 meters
(B) About 2.0 meters
(C) About 3.2 meters
(D) About 5.0 meters
Transcribed Image Text:Use the below information to answer Questions 23 – 26. A Pasco rotational motion sensor contains a disc of mass and radius properties outlined below. The string connecting the hanging mass to the disc is wound around the perimeter of the disc. (Once the mass is released, the disc spins in a counter-clockwise manner). Disc A Disc Mass = 5.0 kg Disc Radius = 0.02 m Point A Disc B Disc Mass = 20 kg Disc Radius = 0.01 m Hanging Mass = 100 g, (0.10 kg) The following actions occur in the order described below. (1) The hanging mass is dropped at time t = 0.0 seconds, and tension is applied to the disc for 5.0 seconds. (2) At exactly 5.0 seconds, a student uses scissors to cut the string at Point A. The disc now spins without friction. (3) The disc freely spins without friction for 3.0 seconds. (4) At exactly &8.0 seconds, a student drops Disc B directly on top of Disc A, such that its center of axis of rotation aligns with Disc A. (5) Disc A and Disc B spin without friction for an additional 4.0 seconds, when the analysis is ceased. (23) What is the best approximation the for linear distance dropped by the hanging mass after 5.0 seconds of drop time? (A) About 0.8 meters (B) About 2.0 meters (C) About 3.2 meters (D) About 5.0 meters
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