6. Each of the questions below refers to a projectile that is launched from the top of a tower, 45.0 m above the ground, at a speed of 12.5 m/s at an angle of 40.0° up from horizontal. a. Draw a diagram of the situation, labeling all of the known quantities. Also, use a dashed line to sketch in the path of the projectile from its launch until it hits the ground. b. Find the x and y components of its initial velocity. c. How long does it take to reach its maximum height? d. How high is its maximum height above the ground?

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6. Each of the questions below refers to a projectile that is launched from the top of a tower, 45.0 m
above the ground, at a speed of 12.5 m/s at an angle of 40.0° up from horizontal.
a. Draw a diagram of the situation, labeling all of the known quantities. Also, use a dashed line
to sketch in the path of the projectile from its launch until it hits the ground.
b. Find the x and y components of its initial velocity.
c. How long does it take to reach its maximum height?
d. How high is its maximum height above the ground?
e. How long is it in the air before it hits the ground?
f. How far away from the base of the tower is it when it hits the ground?
g. Find the x and y components of its velocity right before it hits the ground.
h. Find its speed right before it hits the ground.
Transcribed Image Text:6. Each of the questions below refers to a projectile that is launched from the top of a tower, 45.0 m above the ground, at a speed of 12.5 m/s at an angle of 40.0° up from horizontal. a. Draw a diagram of the situation, labeling all of the known quantities. Also, use a dashed line to sketch in the path of the projectile from its launch until it hits the ground. b. Find the x and y components of its initial velocity. c. How long does it take to reach its maximum height? d. How high is its maximum height above the ground? e. How long is it in the air before it hits the ground? f. How far away from the base of the tower is it when it hits the ground? g. Find the x and y components of its velocity right before it hits the ground. h. Find its speed right before it hits the ground.
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