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 = 1.0 m/s , Vy = 1.6 m/s.What is the value of g on Planet Exidor?I have asked this same question 2 times already, and recieved 2 incorrect solutions, 1.2 m/s^2 and 2.0 m/s^2 . I am still not sure how to calculate g. This question is not "incomplete"; all information regarding the problem is included in the text, or the 2 attached screenshots. SubmitA physics student on Planet Exidor throws a ball, and it followsthe parabolic trajectory shown in (Figure 1). The ball's position isPrevious Answersshown at 1.0 sintervals until t = 3.0 s. At t = 1.0 s the ball'svelocity has components v, = 1.0 m/s, v, = 1.6 m/s.v CorrectPart DWhat is the value of g on Planet Exidor?Express your answer with the appropriate units.HAmg Planet Exidor = 12s2SubmitPrevious Answers Request AnswerX Incorrect; Try Again; 4 attempts remainingFigure(< 1 of 1Part EWhat was the ball's launch angle?Express your answer in degrees.2.0 se = 731.0 s3.0 sSubmitPrevious Answersv CorrectOs Part AA physics student on Planet Exidor throws a ball, and it followsthe parabolic trajectory shown in (Eigure 1). The ball's position isshown at 1.0 s intervals until t = 3.0 s. At t = 1.0 s the ball'svelocity has components v, = 1.0 m/s , v, =1.6 m/s.Determine the z- and y-components of the ball's velocity at t = 0.0 s.Express your answers in meters per second separated by a comma.vOz , Voy = 1.0,3.2 m/s. m/sSubmitPrevious AnswersCorrectPart BDetermine the a- and y-components of the ball's velocity at t = 2.0 s.Express your answers in meters per second separated by a comma.v2- , 02y = 1.0,0 m/s, m/sSubmitPrevious AnswersCorrectFigure1 of 1Part CDetermine the z- and y-components of the ball's velocity at t = 3.0 s.2.0 sExpress your answers in meters per second separated by a comma.1.0 s3.0 sv3z , V3y = 1.0,-1.6 m/s, m/sSubmitPrevious AnswersCorrect

Given: At t= 0 , vy = 3.2 m/s at t = 2 sec, vy = 0 m/s

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, = 1.0 m/s , v, = 1.6 m/s.

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, = 1.0 m/s , v, = 1.6 m/s.

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Question

What is the value of g on Planet Exidor?

I have asked this same question 2 times already, and recieved 2 incorrect solutions, 1.2 m/s^2 and 2.0 m/s^2 . I am still not sure how to calculate g. This question is not "incomplete"; all information regarding the problem is included in the text, or the 2 attached screenshots.