Two 3.40 kg balls are attached to the ends of a thin rod of length 44.0 cm and negligible mass. The rod is free to rotate ina vertical plane without friction about a horizontal axis through its center. With the rod initially horizontal (the figure), a 73.0 g wad of wet putty drops onto one of the balls, hitting it with a speed of 2.97 m/s and then sticking to it. (a) What is the angular speed of the system just after the putty wad hits? (b) What is the ratio of the kinetic energy of the system after the collision to that of the putty wad just before? (c) Through what angle (deg) will the system rotate before it momentarily stops? Putty wad Rotation- axis (a) Number 0.143 Units rad/s (b) Number i 0.032 Units No units (c) Number 181 Units * (degrees)

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Chapter1: Units, Trigonometry. And Vectors
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I’m stuck with this. Question part B please .0051 is not a right
Two 3.40 kg balls are attached to the ends of a thin rod of length 44.0 cm and negligible mass. The rod is free to rotate ina vertical
plane without friction about a horizontal axis through its center. With the rod initially horizontal (the figure), a 73.0 g wad of wet putty
drops onto one of the balls, hitting it with a speed of 2.97 m/s and then sticking to it. (a) What is the angular speed of the system just
after the putty wad hits? (b) What is the ratio of the kinetic energy of the system after the collision to that of the putty wad just before?
(c) Through what angle (deg) will the system rotate before it momentarily stops?
Putty wad
Rotation-
axis
(a) Number
0.143
Units
rad/s
(b) Number
i
Units No units +
0.032
(c) Number
181
Units
(degrees)
Transcribed Image Text:Two 3.40 kg balls are attached to the ends of a thin rod of length 44.0 cm and negligible mass. The rod is free to rotate ina vertical plane without friction about a horizontal axis through its center. With the rod initially horizontal (the figure), a 73.0 g wad of wet putty drops onto one of the balls, hitting it with a speed of 2.97 m/s and then sticking to it. (a) What is the angular speed of the system just after the putty wad hits? (b) What is the ratio of the kinetic energy of the system after the collision to that of the putty wad just before? (c) Through what angle (deg) will the system rotate before it momentarily stops? Putty wad Rotation- axis (a) Number 0.143 Units rad/s (b) Number i Units No units + 0.032 (c) Number 181 Units (degrees)
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