Vectors and 2-D Kinematics Julie throws a ball to her friend Sarah. The ball lea
ID: 2221552 • Letter: V
Question
Vectors and 2-D Kinematics Julie throws a ball to her friend Sarah. The ball leaves Julie's hand a distance 1.5 meters above the ground with an initial speed of 22.0 m/s at an angle 63.0 degrees; with respect to the horizontal. Sarah catches the ball 1.5 meters above the ground. After catching the ball, Sarah throws it back to Julie. The ball leaves Sarah's hand a distance 1.5 meters above the ground, and is moving with a speed of 11.0 m/s when it reaches a maximum height of 22.0 m above the ground. the speed of the ball when it leaves Sarah's hand : 22.86m/s the distance between the two girls : 39.948m So my question is How high above the ground will the ball be when it gets to Julie? (note, the ball may go over Julie's head.)Explanation / Answer
I get 15.321 m for the distance. Close enough. One of us is more precise than the other but the approach is most likely the same. At the maximum height, the y component of velocity is zero, so the only component left is the x component, which is constant though the duration of the flight: If Vo is the initial velocity that you're looking for, and a is the angle with the ground 10 = Vx = Vo * cos a If the time for the second flight is t, The total x distance is Vo * (cos a) * t = 15.32 (from the first part of the question) Substitute Vo*cos a = 10 and solve for t: t = 15.32/10 = 1.532 The total y distance for the second flight is Vo * (sin a) * t - (1/2)*(9.8) * t^2 = 0 divide both sides by t: Vo * sin a - 4.9t = 0 add 4.9t to both sides: Vo * sin a = 4.9t plug in t = 1.532 Vo * sin a = (4.9)*(1.532) = 7.5068 I want to do something with the trig identity (sin a)^2 + (cos a)^2 = 1 (Vo*cos a)^2 + (Vo*sin a)^2 = 10^2 + 7.5068^2 = 156.35 = (Vo)^2*[ (cos a)^2 + (sin a)^2 ] = Vo^2 Vo = sqrt(156.35) = 12.504
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