0.440 kg shuffleboard disk is initially at rest when a player uses a cue to increase its speed to 4.40 m/s at constant acceleration. The cceleration takes place over a 2.80 m distance, at the end of which the cue loses contact with the disk. Then the disk slides an additional 12.8 m before stopping. Assume that the shuffleboard court is level and that the force of friction on the disk is constant.What isthe increase in the thermal energy of the disk-court system (a) for that additional 12.8 m and (b) for the entire 15.6 m distance? (c) How much work is done on the disk by the cue? (a) Number 4.26 Units (b) Number 5.19 Units 그 (c) Number i 4.26 Units

College Physics
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Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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I need help with part C
0.440 kg shuffleboard disk is initially at rest when a player uses a cue to increase its speed to 4.40 m/s at constant acceleration. The
cceleration takes place over a 2.80 m distance, at the end of which the cue loses contact with the disk. Then the disk slides an
additional 12.8 m before stopping. Assume that the shuffleboard court is level and that the force of friction on the disk is
constant.What isthe increase in the thermal energy of the disk-court system (a) for that additional 12.8 m and (b) for the entire 15.6 m
distance? (c) How much work is done on the disk by the cue?
(a) Number
4.26
Units
(b) Number
5.19
Units
(c) Number
i
4.26
Units
Transcribed Image Text:0.440 kg shuffleboard disk is initially at rest when a player uses a cue to increase its speed to 4.40 m/s at constant acceleration. The cceleration takes place over a 2.80 m distance, at the end of which the cue loses contact with the disk. Then the disk slides an additional 12.8 m before stopping. Assume that the shuffleboard court is level and that the force of friction on the disk is constant.What isthe increase in the thermal energy of the disk-court system (a) for that additional 12.8 m and (b) for the entire 15.6 m distance? (c) How much work is done on the disk by the cue? (a) Number 4.26 Units (b) Number 5.19 Units (c) Number i 4.26 Units
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