Determine the direction of the average acceleration of the bead as it moves from point D to H for the time interval when the bead first passes point D with velocity to the left, then through points E, G, and then to point H.. (Use the direction key as explained in the description)

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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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Determine the direction of the average acceleration
of the bead as it moves from point D to H for the
time interval when the bead first passes point D with
velocity to the left, then through points E, G, and
then to point H.. (Use the direction key as explained
in the description)
0
1
02
3
05
6
8
Transcribed Image Text:Determine the direction of the average acceleration of the bead as it moves from point D to H for the time interval when the bead first passes point D with velocity to the left, then through points E, G, and then to point H.. (Use the direction key as explained in the description) 0 1 02 3 05 6 8
A 1 kilogram bead moves with constant total mechanical
energy on a frictionless wire track. The track is in a
vertical plane and consists of straight segments and
circular segments. For example, points B, F, G, H are on
straight segments. Points A, C, D, E are on circular track
segments. Point A is at the top of the track and point H
is the lowest point of the track.
The bead is shown initially at point C with a velocity 5.6
m/s down as represented by the velocity arrow. The
circular portion of track that includes points A, C, D has
a radius 3.2 meters.
radius
3.2 m
Velocity
5.6 m/s
Direction Key
1
7
5
2
The "direction key" shows eight arrow directions
labeled 1 to 8. To use the "direction key", consider the
vector mentioned in each question. Match the direction
of the vector with the arrow in the key that best shows
the direction of the required vector.
For example the velocity vector at point C is best
represented by arrow "5" in the key.
Transcribed Image Text:A 1 kilogram bead moves with constant total mechanical energy on a frictionless wire track. The track is in a vertical plane and consists of straight segments and circular segments. For example, points B, F, G, H are on straight segments. Points A, C, D, E are on circular track segments. Point A is at the top of the track and point H is the lowest point of the track. The bead is shown initially at point C with a velocity 5.6 m/s down as represented by the velocity arrow. The circular portion of track that includes points A, C, D has a radius 3.2 meters. radius 3.2 m Velocity 5.6 m/s Direction Key 1 7 5 2 The "direction key" shows eight arrow directions labeled 1 to 8. To use the "direction key", consider the vector mentioned in each question. Match the direction of the vector with the arrow in the key that best shows the direction of the required vector. For example the velocity vector at point C is best represented by arrow "5" in the key.
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