11. A stone is thrown with a velocity of 30m/s pointed 36.87 degrees above the horizontal from the top of a cliff, 68.4m high. a. How far from the face of the cliff will it strike a horizontal plane through the base of the cliff? b. If sound travels approximately 350 m/s, how long after the stone is thrown will the sound of the impact be heard?

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Chapter1: Units, Trigonometry. And Vectors
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11. A stone is thrown with a velocity of 30m/s pointed 36.87 degrees above the horizontal from the
top of a cliff, 68.4m high.
a. How far from the face of the cliff will it strike a horizontal plane through the base of the
cliff?
b. If sound travels approximately 350 m/s, how long after the stone is thrown will the
sound of the impact be heard?
12. The Y coordinates of a particle which moves along a curve are given by y = 20t + where y is
in meters and t is in seconds. When t=2s, the total acceleration is 5m/s^2. If the component of
acceleration in the positive x-direction is constant and the particles starts from the origin with
Vx=0 at t=0, determine the total velocity and position of the particle when t=5s
13. A rifle is fired from the top of a 90m building. The initial velocity of the bullet is 350 m/s and the
rifle is pointed 30 degrees above the horizontal.
a. When will the bullet strike the ground?
b. Where will the bullet strike the ground?
c. What is the maximum height attained by the bullet?
14. A particle travels counterclockwise around a circle of 36m radius so that the distance from a
fixed point O on the right end of a horizontal diameter is given by s = 20t + 2t where s is in
meters and t is in seconds. Determine:
a. Acceleration x-axis
b. Acceleration y-axis
15. The driver of a car applies the brakes to produce a uniform deceleration. The speed is 90kph at
the bottom A and 54 kph at the top C, which is 80m along the road from A. The passenger
experiences a total acceleration of 3.2 m/s^2 at C and the radius of curvature at A is 255m.
Neglecting the dimensions of the car, as compared with those of the path, determine the
40m
40
B.
a. The radius of curvature at C
b. The total acceleration at A
c. The acceleration at the inflection point B
Transcribed Image Text:11. A stone is thrown with a velocity of 30m/s pointed 36.87 degrees above the horizontal from the top of a cliff, 68.4m high. a. How far from the face of the cliff will it strike a horizontal plane through the base of the cliff? b. If sound travels approximately 350 m/s, how long after the stone is thrown will the sound of the impact be heard? 12. The Y coordinates of a particle which moves along a curve are given by y = 20t + where y is in meters and t is in seconds. When t=2s, the total acceleration is 5m/s^2. If the component of acceleration in the positive x-direction is constant and the particles starts from the origin with Vx=0 at t=0, determine the total velocity and position of the particle when t=5s 13. A rifle is fired from the top of a 90m building. The initial velocity of the bullet is 350 m/s and the rifle is pointed 30 degrees above the horizontal. a. When will the bullet strike the ground? b. Where will the bullet strike the ground? c. What is the maximum height attained by the bullet? 14. A particle travels counterclockwise around a circle of 36m radius so that the distance from a fixed point O on the right end of a horizontal diameter is given by s = 20t + 2t where s is in meters and t is in seconds. Determine: a. Acceleration x-axis b. Acceleration y-axis 15. The driver of a car applies the brakes to produce a uniform deceleration. The speed is 90kph at the bottom A and 54 kph at the top C, which is 80m along the road from A. The passenger experiences a total acceleration of 3.2 m/s^2 at C and the radius of curvature at A is 255m. Neglecting the dimensions of the car, as compared with those of the path, determine the 40m 40 B. a. The radius of curvature at C b. The total acceleration at A c. The acceleration at the inflection point B
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