(20%) Problem 5: A hockey puck has a velocity of v = vxi + vyj. Another puck wit
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(20%) Problem 5: A hockey puck has a velocity of v = vxi + vyj. Another puck with identical mas s is at rest at the origin. The two pucks collide. After the collision it is observed that the second puck has a velocity of vf = v2yj. Randomized Variables vx=3.1m/s vy = 3.1 m/S v2y = 1.7 m/ s 33% Part (a) Write an expression for the first pucks velocity after the collision, in terms of the variables in the problem statement and the unit vectors i and j. Part (b) What is the magnitude of the first puck?s velocity, in meters per second. after the collision? Part (c) At what angle theta does this velocity make with respect to the x-axis, in degrees?Explanation / Answer
Let the final velocity of puck 1 be vx1i+ vy1j
from the law of Conservation of energy
Vxi + Vyj + 0 = Vx1i +Vy1j + v2yj
3.1i + 3.1j = vx1i + vy1j + 1.7j
3.1 = vx1 and 1.4 = vy1
v = [3.1i + 1.4j] m/s
b)
magnitude of v=root(3.1^2+1.4^2)
=3.4 m/s
c)
theta=tan inverse(1.4/3.1)
=24.3 degrees
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