1. A dog running in an open field has components of velocity v, -2.6 m/s and v-2.8 m/s att, 10.0 s. For the time interval from t 10.0s to tz -20.0 s the average acceleration of the dog has magnitude 0.45 m/s² and direction 31.0° measured from the +x-axis toward the +y-axis. At t-20.0 s, a. what are the x- and y-components of the dog's velocity? b. What are the magnitude and direction of the dog's velocity? c. Sketch the velocity vectors at and How do these two vectors differ? stand on the mof of a 150-m-tall building and throws a rock with a velocity of magnitude 30.0 m/s
1. A dog running in an open field has components of velocity v, -2.6 m/s and v-2.8 m/s att, 10.0 s. For the time interval from t 10.0s to tz -20.0 s the average acceleration of the dog has magnitude 0.45 m/s² and direction 31.0° measured from the +x-axis toward the +y-axis. At t-20.0 s, a. what are the x- and y-components of the dog's velocity? b. What are the magnitude and direction of the dog's velocity? c. Sketch the velocity vectors at and How do these two vectors differ? stand on the mof of a 150-m-tall building and throws a rock with a velocity of magnitude 30.0 m/s
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter2: Motion In One Dimension
Section: Chapter Questions
Problem 4WUE: A football player runs from his own goal line to the opposing teams goal line, returning to the...
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![1. A dog running in an open field has components of velocity v, 2.6 m/s and v/ -2.8 m/s atti- 10.0s. For
the time interval from t 10.0s to tz -20.0 s the average acceleration of the dog has magnitude 0.45 m/s²
and direction 31.0° measured from the +x-axis toward the +y-axis. At t-20.0 s,
what are the x- and y-components of the dog's velocity?
a.
b. What are the magnitude and direction of the dog's velocity?
Sketch the velocity vectors at and How do these two vectors differ?
c.
2. A man stands on the roof of a 15.0-m-tall building and throws a rock with a velocity of magnitude 30.0 m/s
at an angle of 33.0° above the horizontal. You can ignore air resistance. Calculate (a) the maximum height
above the roof reached by the rock; (b) the magnitude of the velocity of the
rock just before it strikes the ground; and (c) the horizontal range from the
base of the building to the point where the rock strikes the ground.
3. A Ferris wheel with radius 14.0 m is turning about a horizontal axis through
its center (refer to figure). The linear speed of a passenger on the rim is
constant and equal to 7.00 m/s. What are the magnitude and direction of the
passenger's acceleration as she passes through (a) the lowest point in her
circular motion? (b) The highest point in her circular motion? (c) How much
time does it take the Ferris wheel to make one revolution?
GETVE
To extricate the vehicle](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6771f9dc-b399-4174-a41a-d513a8b32c16%2Fa77d7912-11ed-4dc7-bc81-31e3caaf6232%2Fc9p8o9r_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. A dog running in an open field has components of velocity v, 2.6 m/s and v/ -2.8 m/s atti- 10.0s. For
the time interval from t 10.0s to tz -20.0 s the average acceleration of the dog has magnitude 0.45 m/s²
and direction 31.0° measured from the +x-axis toward the +y-axis. At t-20.0 s,
what are the x- and y-components of the dog's velocity?
a.
b. What are the magnitude and direction of the dog's velocity?
Sketch the velocity vectors at and How do these two vectors differ?
c.
2. A man stands on the roof of a 15.0-m-tall building and throws a rock with a velocity of magnitude 30.0 m/s
at an angle of 33.0° above the horizontal. You can ignore air resistance. Calculate (a) the maximum height
above the roof reached by the rock; (b) the magnitude of the velocity of the
rock just before it strikes the ground; and (c) the horizontal range from the
base of the building to the point where the rock strikes the ground.
3. A Ferris wheel with radius 14.0 m is turning about a horizontal axis through
its center (refer to figure). The linear speed of a passenger on the rim is
constant and equal to 7.00 m/s. What are the magnitude and direction of the
passenger's acceleration as she passes through (a) the lowest point in her
circular motion? (b) The highest point in her circular motion? (c) How much
time does it take the Ferris wheel to make one revolution?
GETVE
To extricate the vehicle
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