BMC Test 2 Math Exam questions with correct answers

BMC Test 2 Math || || ||


Study ||online ||at ||https://quizlet.com/_d1wvh9
1. A canoeist accelerating uniformly from rest reaches a velocity of 3.5 ms-1
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in just 5 seconds.
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a. what is the canoeist acceleration over this time period?
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b. assuming the acceleration is constant,what would be the acceleration after 10 | | | | | | | | | | ||


seconds?: a.
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(final velocity - initial velocity/change in time)
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3.5- = .7
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.7 m/s^-2
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b.
Final velocity = (initial velocity)+(acceleration)(time)
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Vf = (0) + (.7) (10)
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=7 ms^-1 ||


2. A sprinter attempting a 60m dash completes the distance in a time of 6.5
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seconds (starting fromrest).What is the sprinter's average velocity over this
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distance?: Average velocity = change in speed / change in time
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60-.5-0 = || || ||


9.23 m/s^-1 ||


3. A soccer ball is kicked from the ground with an initial velocity of 27 m/s, at
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an angle of 39 degrees.
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a. What is the horizontal and vertical component at release?: 27 cos(39 = 20.98
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|| horizontal = 20.98 m/s^-1 || || ||




27 sin(39 = 16.99
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Vertical = 16.99 m/s^-1 || || ||


4. A ball was launched off a cliff with an initial velocity of 15 m/s at an angle
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of 315 degrees ccw from the horizontal (45 degrees below the horizontal).
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a. What is the horizontal and vertical component at release?: 15 cos(315 =
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10.60
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horizontal = 10.60 m/s^-1 15 || || || ||




|| sin(315 = -10.60 || ||




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, BMC Test 2 Math || || ||


Study ||online ||at ||https://quizlet.com/_d1wvh9


Vertical = -10.60 m/s^-1 || || ||


5. A baseball is thrown with a velocity of 15ms-1 at an angle of 30 degrees ccw
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from the horizontal.
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a. What are the horizontal and vertical components of the velocity just as the
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ball leaves thehand?
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b. What is the horizontal and vertical velocity of the ball when it reaches
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maximum height?
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c. At what time does the ball reach maximum vertical height?
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d. How far has the ball traveled vertically and horizontally at this time?: a.
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15 sin(30
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7.5 m/s initial vertical || || ||




15 cos(30 ||


12.99 m/s initial horizontal || || ||




b.
horizontal = 12.99 m/s || || ||


vertical = 0 m/s
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c.
final velocity = initial velocity + (acceleration)(time) 0
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= 7.5 + (-9.81)(t)
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-7.5/-9.81 = .7645 seconds || || ||




|| d.

vertical displacement = (initial vertical velocity)(time)+(1/2)(-9.81)(time^2) x
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= (7.5) (.7645) + (1/2) (-9.81) (.7645^2)
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= 2.87 M || ||




Horizontal displacement = (initial horizontal velocity)(time) x || || || || || ||


= (12.99) (.7645)
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= 9.94 M || ||




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