College Physics
OER 2016 Edition
ISBN: 9781947172173
Author: OpenStax
Publisher: OpenStax College
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Textbook Question
Chapter 6, Problem 1CQ
There an analogy between rotational and physical quantities. What rotational quantities are analogous to distance and velocity?
Expert Solution & Answer
To determine
The rotational quantities which are analogues to distance and velocity
Answer to Problem 1CQ
The rotational quantities which are analogues to distance and velocity are rotation angle and angular velocity respectively.
Explanation of Solution
The rotation angle is the amount of rotation of an object it is analogues to linear distance. It is defined as the ratio of arc length and radius of curvature
Here,
The angular velocity defines how fast an object is rotating about a point it is analogues to the linear velocity. It is defined as the rate of change of rotation angle
Here,
Conclusion:
The rotational quantities which are analogues to distance and velocity are rotation angle and angular velocity respectively.
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A solid sphere 22 cm in radius carries 17 μC, distributed uniformly
throughout its volume.
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Find the electric field strength 12 cm from the sphere's center.
Express your answer using two significant figures.
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In a naval battle, a battleship is attempting to fire on a destroyer. The battleship is a distance
d1 = 2,150 m
to the east of the peak of a mountain on an island, as shown in the figure below. The destroyer is attempting to evade cannon shells fired from the battleship by hiding on the west side of the island. The initial speed of the shells that the battleship fires is
vi = 245 m/s.
The peak of the mountain is
h = 1,840 m
above sea level, and the western shore of the island is a horizontal distance
d2 = 250 m
from the peak. What are the distances (in m), as measured from the western shore of the island, at which the destroyer will be safe from fire from the battleship? (Note the figure is not to scale. You may assume that the height and width of the destroyer are small compared to d1 and h.)
Chapter 6 Solutions
College Physics
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