Q. A physics student on Planet Exidor (no air resistance) throws a ball. The ball follows the parabolic trajectory shown after leaves the student's hand. At t = 1.0 s the ball's velocity has x- and y- components vx = 3.0 m/s and vy = 2.0 m/s. What is the ball's velocity at t = 2.0 s? A. Vx = 0 m/s and vy = 0 m/s B. vx= 3.0 m/s and vy = 2.0 m/s C. vx= 3.0 m/s and vy = 0 m/s D. vx = 3.0 m/s and vy = 4.0 m/s E. vx= 3.0 m/s and vy = -2.0 m/s F. vx = 0 m/s and vy= 2.0 m/s G. Vx = 6.0 m/s and vy = 2.0 m/s H. vx 6.0 m/s and vy = 4.0 m/s V₁-30 m/s and 1.0 s 2.0 s 3.0 s

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N Q7. A physics student on Planet Exidor (no air resistance) throws a ball. The ball follows the parabolic trajectory shown after leaves the student's hand. At t = 1.0 s the ball's velocity has x- and y- components vx = 3.0 m/s and vy = 2.0 m/s. What is the ball's velocity at t = 2.0 s? A. Vx = 0 m/s and vy = 0 m/s B. vx= 3.0 m/s and vy= 2.0 m/s C. vx= 3.0 m/s and vy = 0 m/s D. vx= 3.0 m/s and vy = 4.0 m/s E. Vx= 3.0 m/s and vy = -2.0 m/s F. vx = 0 m/s and vy = 2.0 m/s G. vx = 6.0 m/s and vy = 2.0 m/s H. vx 6.0 m/s and vy = 4.0 m/s I. Vx= -3.0 m/s and vy = -2.0 m/s Os 1.0 s 2.0 s 3.0 s