A physics student on Planet Exidor throws a ball, and it follows the parabolic trajectory shown in (Figure 1). The ball's position is shown at 1.0 s intervals until t = 3.0 s. At t = 1.0 s the ball's velocity has components V=2.0 m/s, Vy = 2.2 m/s. Figure y Os 1.0 s 2.0 s 3.0 s 1 of 1 X Part A t = 0.0 s. Determine the x- and y-components of the ball's velocity Express your answers in meters per second separated by a comma. [ΠΙ ΑΣΦ 0,0 Voz V0y = Submit Previous Answers Request Answer X Incorrect; Try Again; One attempt remaining Part B ? m/s, m/s Determine the x- and y-components of the ball's velocity tt = 2.0 s. Express your answers in meters per second separated by a comma.

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Chapter1: Units, Trigonometry. And Vectors
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A physics student on Planet Exidor throws a ball, and it
follows the parabolic trajectory shown in (Figure 1). The
ball's position is shown at 1.0 s intervals until t = 3.0 s. At
t = 1.0 s the ball's velocity has components vx = 2.0 m/s,
Vy = 2.2 m/s.
Figure
y
0s
1.0 s
2.0 s
3.0 s
1 of 1
·X
Part A
Determine the x- and y-components of the ball's velocity at t = 0.0 s.
Express your answers in meters per second separated by a comma.
VE ΑΣΦ
V0x¹
voy
=
0,0
Submit Previous Answers Request Answer
Part B
X Incorrect; Try Again; One attempt remaining
?
m/s, m/s
Determine the x- and y-components of the ball's velocity at t = 2.0 s.
Express your answers in meters per second separated by a comma.
Transcribed Image Text:A physics student on Planet Exidor throws a ball, and it follows the parabolic trajectory shown in (Figure 1). The ball's position is shown at 1.0 s intervals until t = 3.0 s. At t = 1.0 s the ball's velocity has components vx = 2.0 m/s, Vy = 2.2 m/s. Figure y 0s 1.0 s 2.0 s 3.0 s 1 of 1 ·X Part A Determine the x- and y-components of the ball's velocity at t = 0.0 s. Express your answers in meters per second separated by a comma. VE ΑΣΦ V0x¹ voy = 0,0 Submit Previous Answers Request Answer Part B X Incorrect; Try Again; One attempt remaining ? m/s, m/s Determine the x- and y-components of the ball's velocity at t = 2.0 s. Express your answers in meters per second separated by a comma.
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