5:10 ° Ôn X3 in MOD Spin #1 Determine the stopping location of the prize wheel. At this moment it is centered on the number 29. It is spinning with an energy of 111.39 J. It is slowing at a rate of 1.400 rad/s/s. The disk is made from a wood with a density of 344.0 kg/m^3. The disk is 37.0 mm thick and has a radius of 47.0 cm. Predict the angular displacement it will go through and predict the number on which the wheel will stop. To be safe, you will also get one number the right and to the left of the number you chose. The wheel will spin clockwise. When you are ready to enter your number, hit the end button. End 36 35 34 33 L 2 3 4 д 6 32 31 30 29 28 27 26 25 24 L 8 88% 23 22 21 20 19 18 17/ 6 0L LL ZLEL VL GL 9L |||
5:10 ° Ôn X3 in MOD Spin #1 Determine the stopping location of the prize wheel. At this moment it is centered on the number 29. It is spinning with an energy of 111.39 J. It is slowing at a rate of 1.400 rad/s/s. The disk is made from a wood with a density of 344.0 kg/m^3. The disk is 37.0 mm thick and has a radius of 47.0 cm. Predict the angular displacement it will go through and predict the number on which the wheel will stop. To be safe, you will also get one number the right and to the left of the number you chose. The wheel will spin clockwise. When you are ready to enter your number, hit the end button. End 36 35 34 33 L 2 3 4 д 6 32 31 30 29 28 27 26 25 24 L 8 88% 23 22 21 20 19 18 17/ 6 0L LL ZLEL VL GL 9L |||
5:10 ° Ôn X3 in MOD Spin #1 Determine the stopping location of the prize wheel. At this moment it is centered on the number 29. It is spinning with an energy of 111.39 J. It is slowing at a rate of 1.400 rad/s/s. The disk is made from a wood with a density of 344.0 kg/m^3. The disk is 37.0 mm thick and has a radius of 47.0 cm. Predict the angular displacement it will go through and predict the number on which the wheel will stop. To be safe, you will also get one number the right and to the left of the number you chose. The wheel will spin clockwise. When you are ready to enter your number, hit the end button. End 36 35 34 33 L 2 3 4 д 6 32 31 30 29 28 27 26 25 24 L 8 88% 23 22 21 20 19 18 17/ 6 0L LL ZLEL VL GL 9L |||
Determine the stopping location of the prize wheel. At this moment it is centered on the number 7. It is spinning with an energy of 46.09 J. It is slowing at a rate of 1.300 rad/s/s.
The disk is made from a wood with a density of 529.0 kg/m^3. The disk is 41.0 mm thick and has a radius of 36.0 cm.
Predict the angular displacement it will go through and predict the number on which the wheel will stop. To be safe, you will also get one number the right and to the left of the number you chose.
The wheel will spin clockwise.
Transcribed Image Text:5:10 ° Ôn X3 in MOD
Spin #1
Determine the stopping location of the prize wheel. At
this moment it is centered on the number 29. It is
spinning with an energy of 111.39 J. It is slowing at a
rate of 1.400 rad/s/s.
The disk is made from a wood with a density of 344.0
kg/m^3. The disk is 37.0 mm thick and has a radius of
47.0 cm.
Predict the angular displacement it will go through and
predict the number on which the wheel will stop. To be
safe, you will also get one number the right and to the
left of the number you chose.
The wheel will spin clockwise.
When you are ready to enter your number, hit the end
button.
End
36
35 34 33
L
2
3
4
д
6
32 31 30 29 28 27 26 25 24
L
8
88%
23
22
21
20
19
18
17/
6 0L LL ZLEL VL GL 9L
|||
Definition Definition Angle at which a point rotates around a specific axis or center in a given direction. Angular displacement is a vector quantity and has both magnitude and direction. The angle built by an object from its rest point to endpoint created by rotational motion is known as angular displacement. Angular displacement is denoted by θ, and the S.I. unit of angular displacement is radian or rad.
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