Aerospace engineers sometimes compute the trajectories of projectiles such as rockets. A related problem deals with the trajectory of a thrown ball. The trajectory of a thrown by a right fielder is defined by the (x,y) coordinates as displayed in the Figure below. Find the appropriate initial angle θ0 , if v0 = 30m/s, and the distance to the catcher is 90 m. Note that the throw leaves the right fielder’s hand at an elevation of 1.8 m and the catcher receives it at 1 m. You can use your Matlab code written for Newton-Raphson Method.

Aerospace engineers sometimes compute the trajectories of projectiles such as rockets. A related problem deals with the trajectory of a thrown ball. The trajectory of a thrown by a right fielder is defined by the (x,y) coordinates as displayed in the Figure below. Find the appropriate initial angle θ0 , if v0 = 30m/s, and the distance to the catcher is 90 m. Note that the throw leaves the right fielder’s hand at an elevation of 1.8 m and the catcher receives it at 1 m. You can use your Matlab code written for Newton-Raphson Method.

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Question

Find the appropriate initial angle θ₀ , if v₀ = 30m/s, and the distance to the catcher is 90 m. Note that the throw leaves the right fielder’s hand at an elevation of 1.8 m and the catcher receives it at 1 m. You can use your Matlab code written for Newton-Raphson Method.

The trajectory can be modeled as
x² + Yo
y = (tan 0,)x
2v3 (cos 00)2
vo

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